TW200907241A - Light emitting diode lamp having heat dissipation module and its lamp holder structure - Google Patents

Abstract

The present invention relates to a light emitting diode (LED) lamp having heat dissipation module and its lamp holder structure, wherein the LED lamp comprises a glass reflecting member, a heat dissipation module and an LED light source. The glass reflecting member is combined with the heat dissipation module. The LED light source is disposed to the bottom of the first side end of the heat dissipation module to conveniently utilize the light reflecting surface of the glass reflecting member to reflect light beam generated by the LED light source. Accordingly, the light emission quality is improved. Since the LED light source is combined to the bottom of the first side end in directly heat-conduction manner, heat generated by the LED light source can be rapidly dissipated to surroundings so as to overcome heat dissipation problem.

Description

200907241 IX. Description of the Invention: [Technical Field] The present invention relates to a light-emitting diode lamp and a lamp holder structure with a heat dissipation module, in particular to reflect light emitted by a light-emitting diode light source by using a glass reflector The light is brighter and enhances the texture of the light, while also providing heat dissipation in combination with the thermal module. [Prior Art] The fabrication technology of the light-emitting diode has been continuously developed in recent years, and the application fields of the light-emitting diode are also increasing, for example, a lamp, a backlight module, a flashlight, a constant illumination, and the like. When the light-emitting diode is applied to the normal illumination, the problem to be solved is to improve the heat dissipation mechanism of the light-emitting diode lamp, and because it is used in the constant illumination, the user is also very important to the light, so the light is emitted. The light emitted by the diode lamp also needs to be brighter and more textured. According to the illuminating diode lamp structure described in the Republic of China, the new patent No. 310984, in which a cup-shaped lamp cup is used, the lamp cup is formed with an enlarged end and a reduced end. The enlarged end has a receiving recess, and the receiving recess is sequentially provided with a light emitting diode light source, a driving circuit board and a lens, and is covered by a lamp cover to the enlarged end of the lamp cup, and the reduced end has A base and the base includes two power contacts. The conventional light-emitting diode bulb structure utilizes a plurality of heat dissipation holes on one of the ring walls of the lamp cup and is matched with a plurality of ventilation holes on the lamp cover to dissipate heat generated by the light-emitting diode light source, but the heat conduction of the air The slow speed is not conducive to the medium of heat conduction, so even if the lamp cup uses a material with good heat conduction, 200907241 cannot effectively and quickly remove the tropical light from the LED light source, and may cause the luminous efficiency of the light emitting diode source to be hot. And attenuation. In addition, the conventional light-emitting diode bulb structure utilizes a secondary mask, such as a lens design, to control the light exit angle of the light-emitting diode source, but also because the lens is used to focus the light of the light-emitting diode source to concentrate the light or Divergence, so the light structure of the conventional light-emitting diode bulb structure is not good, and the lens will absorb some of the light first, so that the light is not bright enough. For the user, the light-emitting diode structure is known. The light is too dull and sluggish, and it is not convenient to use it in normal lighting. SUMMARY OF THE INVENTION The present invention reflects the light emitted by the light emitting diode light source by the glass reflecting member, thereby achieving the purpose of improving the brightness and texture of the light, and simultaneously combining the heat dissipation module to efficiently generate heat generated by the light emitting diode light source. Grounding and heat dissipation, so that the light-emitting diode light source does not reduce the luminous efficiency due to heat. In order to achieve the above object, the present invention provides a light emitting diode with a heat dissipation module

The C body luminaire structure comprises: a glass reflector having at least one light reflecting surface, and the bottom of the glass reflecting member has an opening; and a heat dissipating module having: a heat conducting member coupled with the glass reflecting member And a first side end of the heat conducting member is disposed in the opening; and a heat dissipating member is thermally coupled to the second side end of the heat conducting member; and at least one light emitting diode light source is thermally coupled On the bottom surface of the first side end. In the above invention, the light-emitting diode lamp structure with the heat dissipation module, wherein the glass reflection member can be a glass lamp cup. 200907241 The above-mentioned invention has a light-emitting diode lamp structure with a thermal module, wherein the glass reflector can have a neck portion, the neck portion extends from the opening of the surface reflector member, and the V heat member also extends out - The extension portion is extended in the neck portion 'where the opening may be a quadrilateral or a circle. The above-mentioned invention has the structure of the light-emitting diode lamp with the heat dissipation module, wherein the material of the heat-conducting member can be copper, aluminum or silver. The above-mentioned invention has the structure of the light-emitting diode of the heat-dissipating module, wherein the heat-dissipating member can be a plurality of heat-dissipating fins. The invention relates to a light-emitting diode lamp structure with a heat dissipation module, wherein the light-emitting diode light source can be a light emitting diode (LED), an alternating current light-emitting diode (AC LED) or an organic light-emitting device. Organic Light Emitting Diode (0LED). In order to achieve the above object, the present invention further provides a light emitting diode base structure having a heat dissipation module, comprising: a glass reflector having at least one light reflecting surface, and the bottom of the glass reflecting member has an opening; And a heat dissipating module having a heat conducting member coupled to the glass reflecting member, wherein a first side end of the heat conducting member is received in the opening; and a heat dissipating member thermally coupled to the heat conducting portion One of the second side ends. The above-mentioned invention has a light-emitting diode lamp holder structure with a heat dissipation module, wherein the glass reflection member can be a glass lamp cup. The above-mentioned invention has a light-emitting diode lamp holder structure with a heat dissipation module, wherein the glass reflection member further has a neck portion which extends from the opening of the glass reflection member and the heat-conducting member also extends out of an extension portion, and The extension is placed in the neck 'where the opening can be a quadrilateral or a circle. 200907241 CHihL (9) 上述 The above-mentioned invention has a light-emitting diode base structure with a heat dissipation module, wherein the material of the heat-conducting member can be copper, aluminum or silver. In the above invention, the light-emitting diode lamp holder structure with the heat dissipation module, wherein the heat dissipation member can be a plurality of heat dissipation fins. By the implementation of the present invention, at least the following advancements can be achieved: 1. The use of a glass reflector makes the light emitted by the structure of the light-emitting diode lamp brighter and more textured. Second, the heat dissipation module effectively uses the heat generated by the light-emitting diode light source to be far away from the light-emitting diode light source and dissipates the heat into the environment. In order to make those skilled in the art understand the technical content of the present invention and implement it, and according to the disclosure, the patent scope and the drawings, the related objects and advantages of the present invention can be easily understood by those skilled in the art. The detailed description of the present invention and the preferred embodiments thereof will be described in detail in the embodiments. FIG. 1 is a first embodiment of an exploded embodiment of a light-emitting diode lamp structure 20 having a heat dissipation module according to the present invention. Fig. 2 is a schematic view showing the combination of the structure of the light-emitting diode lamp 20 with the heat dissipation module of Fig. 1. Fig. 3 is a second exploded view of a light-emitting diode lamp structure 20' having a heat dissipation module according to the present invention. Fig. 4 is a schematic view showing the combination of the light-emitting diode lamp structure 20' of the heat dissipation module of Fig. 3. As shown in FIG. 1 , the embodiment is a light-emitting diode lamp structure 20 having a heat dissipation module, comprising: a glass reflector 21; a heat dissipation module 22; with 200907241 ian^Mmrmr and at least one light-emitting diode Polar body light source 23. The glass reflector 21 can be a glass lamp cup or other shaped glass reflectors, such as a bowl shape, a sigmoid shape, or a truncated pyramid shape, etc., and the glass reflector 21 is a commonly known lamp cup. The application parts of the lamp cup are MR8, MRU, MR16, GU10, GU20, GZ10, PAR16, PAR20, PAR30, PAR38, PAR46, PAR56, PAR64, etc., and different glass reflectors 21' can be selected according to the purpose of use. The light shape emitted by the light-emitting diode light source 23 is changed. The glass reflector 21 has at least one light reflecting surface 211, and has an opening 213 at a bottom portion 212 of the glass reflecting member 21, that is, a relatively narrow end portion of the glass reflecting member 21. The opening 213 may be circular, quadrangular, Oval...etc. different shapes. The glass reflecting member 21 reflects the light emitted from the light-emitting diode light source 23 by the light reflecting surface 211 to make the light brighter and more textured without causing the user to think that the light is dull and sluggish. In addition, the use of the glass reflector 21 can reduce the weight of the light-emitting diode structure of the heat-dissipating module of the present embodiment, which is more convenient for the user. The heat dissipation module 22 has a heat conducting member 221 and a heat sink η. The heat generated by the light-emitting diode light source 23 is processed by the heat-dissipating module 22 on the glass reflector 21, and the heat is quickly dissipated to the environment by the light-emitting diode structure 20 having the heat-dissipating module. in. The heat conducting member 221 ' may be a < heat pipe or other article made of a material of heat conductivity of a feed, a mark or a silver. A wall of the guide member 221 ... < A first side end portion is housed in the opening ? 213 of the glass reflection member 21 so that the heat conductive member is combined with the glass reflection member 21. The first end portion is close to the glass reflection; the end portion of the 200907241 is used to carry the light emitting diode light source 23, so that the light emitting diode light source 23 can be used in the glass reflector 21 by using the light reflecting surface 211. Reflect and emit light. The shape of the heat-conducting member may not match the shape of the opening, but in order to prevent the light emitted from the one-pole light source 23 from leaking out, the shape of the heat-conducting member 221 may coincide with the shape of the opening 213 to completely fill the opening 213. In addition, since the heat conductive member 221 is made of a material having a high thermal conductivity, the heat generated by the light emitting diode light source 23 can be quickly separated from the light emitting diode light source 23 to prevent heat from accumulating in the light emitting diode light source. 23, thereby reducing the luminous efficiency and lifetime of the light-emitting diode source Μ. As shown in FIG. 3, in order to enable the light-emitting diode light source 23 to be directly thermally conductively coupled to the heat-conducting member 221, the light-emitting diode light source 23 can be turned on by the external light-emitting diode structure 20 having the heat-dissipating module. Therefore, the outer edge of the heat conducting member 221 is further provided with two openings 223' so that the insulating conductive members 24, 25 electrically connected to one of the electrodes of the light emitting diode light source can be inserted into the corresponding opening 2 And extending out of the heat dissipation module 22, thereby enabling the user to conduct the light-emitting body light source 23 from the outside. The insulating conductive members 24, 25 can be insulated and amp ^ 豕 conductive pins or insulated conductive Line...etc. The heat dissipating member 222 is thermally coupled to the second side end 4' of the heat conducting member 221, that is, the heat conducting member 221 is exposed to the outer end portion of the glass reflecting member 21. The heat dissipating member 222 can be a plurality of heat dissipating fins, and the heat dissipating film can be annular, spiral, etc., and different forms of heat conduction are combined with the second side end portion, and the heat sink member 222 and the environment are used with & The contact area 'so that the thermal energy conducted through the guide 221 is quickly dissipated into the environment' can increase the heat dissipation rate. The light-emitting diode light source 23' may be a light-emitting diode, an alternating current light source _200907241 pole body or an organic light-emitting diode, wherein the light-emitting diode is in particular a high-power light-emitting diode solid-state light source. The single light-emitting diode light source 23 or the plurality of private light sources 23 or the body light source 23 may be thermally coupled to the bottom of the first side end portion of the heat conductive member 221 by means of a thermal conductive paste and a second conductive material. The bottom surface of the first side end of the heat conducting member 221 is coupled. - Further, as shown in Fig. 4, in order to reinforce the bond between the heat conducting member 221 and the glass reflecting member ^ 21, the glass reflecting member 21 may further have a neck portion 214, and

The shank portion 214 is extended by the opening 213 of the glass reflector 21, so that the neck portion 2U is an accommodating space corresponding to the shape of the opening 213, and the heat conducting member 221 is also extended with an extending portion 224' and the extending portion 224 is used for It is accommodated in the neck portion 214. By increasing the portion where the heat conducting member 221 and the glass reflecting member 21 are combined, the stability of the light emitting diode lamp structure 20' of the heat dissipating module of the embodiment can be improved. For example, as shown in FIG. 4, if the opening 213 of the glass reflector 21 (the shape of the square 214 is extended, the neck 214 extending from the opening 213 is also a hollow rectangular space) and the heat conducting member 221 is extended. The extension portion 224 is also a rectangular parallelepiped for receiving in the neck portion 214 of the glass reflector 21 and is combined with the slope reflection member 21. As shown in Fig. 5, in order to facilitate the user to dissipate heat. The LED light-emitting diode structure 20 of the module is externally connected to the light-emitting diode light source 23, so that two openings 223 are also disposed on the outer edge of the heat-conducting member 221 for inserting the insulating conductive members 24 and 25 relatively. In the opening 223, and the insulating conductive members 24, 25 are exposed outside the heat dissipation module 22, so as to facilitate the user to use the light-emitting diode with the heat-dissipating module 11 200907241

CiUPOJ90TvV? 2JK body luminaire structure 20'. The embodiments are described to illustrate the features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the present invention and to implement the present invention without limiting the scope of the present invention. Equivalent modifications or modifications made by the spirit of the disclosure should still be included in the scope of the claims described below. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a first embodiment of an embodiment of a light-emitting diode lamp structure with a heat dissipation module according to the present invention. Fig. 2 is a schematic view showing the combination of the structure of the light-emitting diode lamp with the heat dissipation module of Fig. 1. FIG. 3 is a second embodiment of an embodiment of a light-emitting diode lamp structure with a heat dissipation module according to the present invention. Fig. 4 is a schematic view showing the combination of the structure of the light-emitting diode lamp with the heat dissipation module of Fig. 3. (, [Main component symbol description] 20, 20'..........Light-emitting diode lamp structure with heat dissipation module 21 ................ ...glass reflector 211 .................light reflecting surface 212 ................. bottom 213 ... .............. Opening 214 .................Neck 22 .............. .....thermal module 12 200907241 221 ................ heat conduction member 222 ................. heat sink 223 .................Opening hole 224 .................Extension 23... ..........Light-emitting diode light source 24, 25 ...........Insulated conductive member 13

Claims (1)

200907241, the scope of the patent application: a light-emitting diode lamp structure with a heat dissipation module, comprising: and the glass reflects a glass reflector having at least a light reflecting surface/, the bottom of the piece has an opening; a heat dissipating module having: one of the heat conducting members, a heat conducting member coupled to the glass reflecting member, and the first side end portion being received in the opening; and the heat dissipating member being thermally coupled to the heat dissipating member The second side end of the heat conducting member; the bottom of the first end portion at least the light emitting diode light source is thermally coupled to the surface. 2. As stated in the scope of application for patents, the item is a glass lamp cup. ...,. Constituting the glass in which the glass is reversed: the material of the product is _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The opening is a quadrilateral of the luminaire structure as described in claim 3 of the heat conduction. 5.= Apply for the structure of the luminaire as described in item 3 of the full-time division. : The structure material of the luminaire described in item i of the patent application is steel, aluminum or silver. The heat dissipation is claimed as the luminaire structure described in the first item of the patent scope 14 6 200907241 , :; 9ίΠΤ7 wherein the light-emitting diodes ^, or an organic heat-dissipating fins. 8. If the luminaire structure described in claim 1 is applied, the body light source is a light-emitting diode, a money-emitting diode photodiode. 9. A light-emitting diode lamp holder structure with a heat dissipation module, comprising: a heat dissipation module, having: a heat element 'which is combined with the glass reflection member, and a first side end of the material is coupled Placed in the opening; and ", 10, such as Shen 2, which is thermally coupled to the second side end of the heat conducting member. Piece / (four) _ ninth description of the reading structure, the towel reflects the glass 仵 is a glass lamp cup. The lamp holder structure of item 9, wherein the glass reflects a neck portion, and the contact portion is received by the opening of the light reflecting member; the heat conducting member also extends a portion and the extension portion 12 The lamp holder structure as claimed in the patent application is directed to the quadrilateral. 13· = Application for the lamp holder structure described in item U, wherein the opening is a circle. 14. The first material in the patent application area is copper, aluminum or silver. 15. The lampholder structure of claim 1, wherein the heat sink is a lampholder structure, wherein the heat sink is 15 200907241 a plurality of heat sink fins.