TWI339252B - - Google Patents

Description

1339252

991124 IX. Description of the invention: L [Technical field of the invention] The present invention relates to an LED lamp, in particular to a heat sink, a reflector portion, an LED light-emitting member and a heat-dissipating flow surface in an ED lamp structure. An innovative designer of the lighting module structure with a spatial type. [Prior Art] According to the 'LED lamp structure design', because its units are lit, it is a point-like ray casting effect. Therefore, the overall luminaire design, how to make all the LEDs achieve the best lighting effect. The uniform diffusion state is a technical issue that the industry continues to strive to improve breakthroughs. As for the lighting structure design of the conventional LED lamp, please refer to FIG. 1 'which is usually set with the LED 01 (single or plural) facing the open end 04 of the reflective cover 03 of the LED lamp 02. The light exiting the shaft is straight out of the open end 〇4 of the reflective reticle 03; however, this structural design causes most of the light emitted by the LED 01 to be directly emitted. Externally, the ratio of reflection and diffusion through the reflective mask 〇3 is relatively small. Thus, the illuminance distribution of the conventional LED lamp is as shown in Fig. 2, and the high-illuminance light portions are concentrated in the center and the peripheral region. The light S?, the degree is suddenly reduced, so it is obvious that the lighting effect of the conventional LED lamp obviously has the problem of diffusedness and poor uniformity. Furthermore, in terms of heat dissipation, the led 01 of the conventional LED lamp is usually distributed in the center of a heat sink 05, and the heat radiating fan 06 provided on the side of the heat sink 5 is used for heat dissipation. This kind of conventional design, due to 1329252 (if ^ ... ~ ' 9911 < the LED 01 operation when the Yan + β β 隹 生 生 生 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 集 , , , , , , , ,涵% a this 丄#,] ι Tingfeng part 疋 corresponds to the flow field state of the peripheral side of the heat sink 05 (such as the first picture 夕 妹 妹 丨 丨 、, 乐 i diagram arrow L1 does not) Therefore, the heat dissipation efficiency of the heat sink 05 is slow. Therefore, the problem of the design and use of the illumination structure of the above-mentioned conventional LED lamp is how to develop an innovative structure with more ideal practicability. In fact, the relevant industry has to think about the goals and direction of breakthroughs. There are L inventors who have been engaged in the manufacturing and development of related products for many years. Ten red tests, after detailed design and careful evaluation for the above objectives, The invention is finally practical. The main purpose of this month is to provide a lighting module for LED lamps. The problem to be solved is to develop a LED lamp structure that can achieve better lighting effects and heat dissipation effects. Thinking about the breakthrough; the lighting module comprises a heat sink 'a reflector part, at least two LED light-emitting components and a heat-dissipating flow surface; wherein the heat sink comprises a first side, a second side, the second side has a The reflector cover portion is disposed at the second side of the heat dissipation seat, the reflector portion has a light reflecting surface ′ and defines a light emitting end, and each of the LED light emitting members has a substrate portion The technical feature of the present invention solves the problem: the light emitted from the LED light-emitting members is emitted toward the reflector portion and is in the same direction as the light-emitting end of the reflector portion. And have an angle relationship and make the LEDs shine 13329252

991124 The members are spaced apart and inclined inward relative to each other; the heat-dissipating flow surface and the tilting relative configuration of the LED light-emitting member are such that the heat-dissipating surface has a relative refresh angle greater than 180. The second oblique surface type; the arrangement area of the reflector portion corresponds to the main range of light projection angles of the LED light-emitting members; thereby, the innovative and unique design enables the present invention to achieve the following advantages as compared with the prior art. : First, the lighting effect of LED lamps is more evenly spread. Second, the heat dissipation effect of LED lamps has been greatly improved. [Embodiment] Please refer to Figure 3, which is the embodiment of the lighting module of the LED lamp of the present invention. However, these embodiments are for illustrative purposes only, and are not subject to this structure in the patent Shenjing. The lighting module A is disposed in a set position of the LED lamp, and the LE:D lamp can be a product type such as a bulb, a lamp, a light board, etc., the lighting module A mainly includes a heat sink 1 〇, a reflection portion 20, at least two LED light-emitting members 30, and two heat-dissipating flow guiding surfaces 4; wherein the heat-dissipating block 10 includes a first side and a second side, wherein the second side of the (four) (four) includes - LED The surface of the heat sink 1 is disposed on the first side of the heat sink 1 and may be integrally formed with heat dissipation fins 41 (indicated in FIGS. 3 and 4); the reflector cover 20 is disposed on the second side of the heat sink 1 In the lateral direction, the reflector portion 20 has a light-reflecting surface 21 at an outwardly flared angle, and defines a wire-out end 22; the LED light-emitting members 3' have a substrate portion to be disposed in the cavity U) The LED assembly on the second side is provided on the surface U such that the (10) light-emitting members. 7 1339252 991 'pM 丨/:, -. The light-emitting shaft 32 faces the reflector portion 20 And the light-emitting end 22 of the reflector portion 2 is in the same direction and has an angle of opposite angles, and the light-emitting members 30 are spaced apart and inclined inwardly relative to each other. This embodiment is The LED assembly surface 11 is disposed in an inverted trapezoidal cross-sectional shape to define two oppositely inclined surfaces on the opposite side for the substrate portion 31 of the LE:D light-emitting member 3 to be disposed on the two heat-dissipating flow surfaces. 40 is integrally formed on the first side of the heat sink 1 对应 corresponding to the position of the LE:D grouping surface 11 , and the heat dissipation and guiding surface 4 配合 cooperates with the inclined relative arrangement type of the LED light emitting member 30 , The heat dissipation flow guiding surface 40 is made to have a relative inflammatory angle greater than. The second step is to the inclined surface type; further, the external position of the heat dissipation flow guiding surface 40 may be combined with a cooling fan, so that the heat dissipation guiding surface 40 can be supplied with air to accelerate the heat dissipating efficiency. Further, the installation area of the reflector portion 20 corresponds to a main range of the light projection angle of the LED light-emitting member 30, and the definition of the light projection angle is as indicated by W in Fig. 3. Wherein the heat sink 10 and the reflective structure type (as shown in FIG. 3), the seat 10B and the reflector portion 20B, that is, the heat sink 10B and the reflector portion are as shown in FIG. 4B. In the structural type, the light of the reflector portion 20 is parabolic (as shown in Fig. 3, the light reflecting surface 21B of the cover portion 20 is broken.

As shown in Fig. 6, the cover portion 20 of the light reflecting surface 21C may be integrally formed; as shown in Fig. 4, the heat dissipation may be a combined structural type, and there is a combined portion between 20B ( The cross-sectional shape of the reflecting surface 21 can be set to 'or the curved surface as shown in Fig. 5 is set to a curve type, and the cross-sectional shape can be a zigzag type 1392252 9 911 2 4 The bamboo is outside; wherein the sawtooth section of the light reflecting surface 2ic, the corresponding surface shape can be set to a pyramidal shape (as shown in Fig. 6), or can be set as a straight triangle wave surface type The state (as shown in Figure 7) can also be set to the triangular wavefront of the curve (as shown in Figure 8). The heat sink 10 has a first side of the heat dissipation surface 40 and can be combined with a heat pipe. One end of the heat pipe can be coupled to the central portion of the first side of the heat sink 10, and the heat pipe is as shown in FIG. 6〇 The other end is convex toward the outside of the first side of the heat sink 10; and the heat pipe 60B' shown in FIG. 1 is a two-part split configuration defining two joint ends 61, 62 and two The heat dissipating ends 63, 64 are respectively combined with the two heat dissipating surface 40 of the first side of the heat sink 10, and the two heat dissipating ends 63, 64 are first facing the heat sink 10. The side outer protrusions are of a set length type; in addition, the heat pipes 60, 60B may be combined with the heat sink 65 to expand the heat dissipation area to improve the heat dissipation efficiency. As shown in FIG. 11 'the light emitting end 22 of the reflector portion 20 may be provided with a light diffusing sheet 23 (also referred to as a halo sheet), and the light diffusing sheet 23 may have a convex arc surface type; Or, as shown in Fig. 12, the light diffusing sheet 2 is a planar surface state; by the arrangement of the light diffusing sheets 23, 23β, the emitted light can be more uniformly diffused and softened. effect. With the above structural composition design, the state of use of the present invention is as follows: One of the core designs of the present invention is that the LED light-emitting members 3 are arranged in a spaced and inwardly inclined manner, and the reflective cover portion is disposed. The area is opposite to the culvert 9 1339252 991124 f? κ 4 to cover the structural design of the light-emitting angle range of the LED light-emitting member 30, so that when the LED light-emitting members 30 are illuminated, as shown in FIG. The light L2 emitted from the opposite side of the LED light-emitting member 30 can be fully projected onto the corresponding light-reflecting surface μ of the reflector portion 20, and the light reflected through the light-reflecting surface 21 reaches the light L2. The illumination effect spread out to the outside of the light-emitting end 22 of the reflector portion 2, thereby obtaining an excellent effect of evenly diffusing the illuminance distribution as shown in Fig. u (please refer to Fig. 2 for illustration) Know the LED illuminance distribution map). The second core design of the present invention is that the heat dissipation and flow guiding surface 4 is formed with a structural design with a relative angle of more than 180 in accordance with the inclined relative configuration of the LE:D light emitting member 30, thereby being disclosed as shown in FIG. The heat generated when the LED light-emitting members 30 distributed on both sides are operated is respectively conducted to the two-side heat-dissipating flow guiding surface 40 (different from the conventional conduction mode of collecting heat toward the center), thereby dispersing the heat. Further, the heat dissipating surface of the heat dissipating surface 4 更 is more conducive to heat dissipation; further, the heat dissipating air flow W2 generated by the cooling fan 50 when operating the air supply is just blown toward the heat dissipating surface of the two sides. , forming a state of heat dissipation flow field such as V-shaped expansion, thereby obtaining excellent heat dissipation efficiency. It is to be noted that the LED assembly surface 11 and the ED light-emitting member 30 of the heat sink can be embodied in a ring-type manner, and the heat sink 10c can also be disclosed as shown in FIG. The structure is formed in a linear extending shape. The cross section of the heat sink 10C may be a meandering plane pattern or the heat sink 101 as shown in FIG. 16 , and the section is configured to be an arc. Form-like. Advantages of the invention: 10 1339252 «.·*«.« ........ -· · ^».· , _. (

The light-emitting axis of each of the LED light-emitting members is in the same direction as the light-emitting end of the reflector portion, and the LED light-emitting member is disposed at an interval and inclined inwardly. The reflector cover portion covers an area corresponding to the lED light-emitting member. The innovative structure design of the main range of light projection angle enables the light of the L ED illuminating member to be fully reflected through the light reflecting surface of the reflecting hood and diffused to the outside, thereby further diffusing the illuminating effect of the LED illuminating device. Uniform, improved lighting quality and progressive. By using the political hot seat and the inclined relative arrangement type of the LED light-emitting member to form an innovative f-structure with a relative cooling angle of more than 180 β, the heat dispersing effect and the expansion can be obtained. The state of the heat dissipation flow field can further improve the heat dissipation effect of the LED lamp, prolong the service life, and improve the safety and safety of the use. The disclosure of the examples is intended to be illustrative of the invention, and the invention may not be limited thereto: God and principle =, the person in the field of mind can understand the essence of the invention, and then change it. Modifications and other changes to the fish 佟 比 成 】 】 】 , , , , , , , , , , , Y Y Y Y 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 133 】 Figure 1: The schematic diagram of the structure of the known LED lamps and the illumination of the series. Figure 2: The illuminance distribution of the conventional LED lamps. Fig. 3 is a schematic view showing the structure of the preferred embodiment of the ED lamp and the heat dissipation flow field. Fig. 4 is a view showing an example of a combination between the reflector portion and the heat sink of the present invention. Fig. 5 is a view showing an example of a curved surface of the reflecting portion of the present invention. Fig. 6 is a view showing the first embodiment of the embodiment in which the light reflecting surface of the reflecting portion of the present invention is in the form of a zigzag cross section, and the surface thereof is of a pyramidal shape. Fig. 7 is a view showing a light-reflecting surface of a reflecting portion of the present invention in a staggered cross-sectional shape. Fig. 2 is a triangular wave surface type having a straight surface. Fig. 8: a reflecting portion of the present invention The light-reflecting surface is in the form of a sawtooth profile, and the surface is a triangular wave-wave type of the curve. FIG. 9 is a first embodiment of the heat sink of the present invention. Fig. 10 is a view showing an embodiment of the heat sink of the present invention in which a heat pipe is added. Fig. 11 is a view showing an embodiment of a light diffusing sheet in a reflector portion of the present invention. Fig. 12 is a second embodiment of the embodiment of the present invention. Figure 13 is a schematic view showing the illumination state of the LED lamp of the present invention. 12 1339252 Bamboo ίί冲9911Z4 Figure 14: Figure 15 of the LED lamp of the present invention: The heat sink base of the present invention Figure 16: The heat sink base of the present invention [Main component symbol description] Conventional part: LED 0 1 lamp 0 2 Reflector 0 3 Open end 0 4 Heat sink 0 5 Cooling fan 0 6 Part of the invention: Lighting module A Heat sink 10 LED set surface 11 Reflector part 2 0 Light reflecting surface 2 1 Light emitting end 2 2 Light diffuser 2 3 illuminance distribution map. Figure 1 shows a configuration example. Figure 2 of the configuration example.

,: L〇B, l〇C, l〇D, 2 Ο B

' 2 1 B ' 2 1 C , 2 3 B 13 1339252 fM 月千日仔 (The amount of the LED light-emitting component substrate part 3 0 3 1 Light-emitting axis 3 2 Heat-dissipating flow surface 4 0 Heat-dissipating fin 4 1 Heat dissipation Fan 5 0 manifold »,,, C7 6 0, 6 0 B combined end 6 1 , 6 2 heat sink 6 3, 6 4 heat sink 6 5 991 124 14

Claims (1)

1339252 丨〒(year 丨I knife + ten, patent application scope: 991124 1 , a lighting module seat of an LED lamp, a reflector part, at least two sides; wherein: the lighting module comprises a heat-dissipating LED light-emitting component and heat-dissipating heat-conducting the first side and the second side a side, the second side is provided with an L ED grouping surface; the reflector portion ' is disposed in a second side direction of the heat sink seat, the reflector portion has a light reflecting surface at an outwardly expanding angle, and defines a light emitting Each of the LED light-emitting members has two LED assembly surfaces, and the heat-dissipating surface is disposed opposite to the reflection cover portion and spaced apart from the opposite direction. The LED group is disposed at a surface position, and the LED light-emitting member is inclined at a relative angle with respect to the heat-dissipating flow surface; and the substrate portion is configured to be disposed on the light-emitting portion of the LED light-emitting member. The emitting end is in the same direction, and the LED light-emitting members are in a shape; the first side of the heat-dissipating block corresponds to the heat-dissipating flow guiding surface and cooperates with the configuration type, so that the first side is greater than 180. The second is the main range of the light projection angle of the six-sided ED illuminating member. According to the first aspect of the patent application, the LED lamp is in the form of a ..., and the heat sink and the reflector portion can be integrally formed. ° 15 991 1 According to the scope of the patent application, the L£:D lamp: wherein the heat sink and the reflector portion can be combined = two. The heat-dissipating fins of the LED lamp according to the first application of the patent application scope of the first aspect of the heat sink can be integrally formed with the heat dissipation fins. The corresponding side of the lighting module of the LED lamp described in the item may be provided with heat dissipation, according to the first patent of the first patent of the heat sink. Fvw / · · 寻 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 Parabolic type 鲅' t Μ Curve type sad, jagged type. According to the patent application 筘圊坌R τ5 &amp; , 1 ··· The lighting module of the LED lamp, wherein the first reflecting surface is serrated and can be used ... When the type, the surface type J is used in the following types: the surface is also noisy U '隹 surface aversion, straight triangle wave surface type sadness, curve triangle wave surface type. 'Based on patent application The range is i, which makes the heat sink have two;:;: the lighting module of the LED lamp has a heat pipe. The first side of the ',,, guide, and face can be assembled according to the eighth item of the patent application scope, wherein The heat pipe can be closed at one end, and the other end of the lighting module of the lamp faces the heat sink; the outer: = the center of the seat - ^ ^ ^ 卜. The type of 卩 伸 伸. 8 items, wherein the lighting module of the led lamp at the manifold is..., B is a two-component ρ′′ end and two Dilated 钕 - 置 置 界定 界定 界定 界定 界定 界定 鸲 鸲 鸲 鸲 鸲 鸲 鸲 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 991124 One of the exothermic flow guiding surfaces of the first side is combined, and the two heat dissipating ends are outwardly protruded toward the side of the heat dissipating seat _ set length of the plow state. A lighting module of an LED lamp as claimed in claim 8 or 9 or 10 wherein the heat pipe is combined with a heat sink. 12. The illumination module of the LED lamp according to claim 1, wherein the light of the reflector portion is emitted and the light diffusion sheet is assembled. 13. The lighting module of the LED lamp according to the invention of claim </ RTI> wherein the LED grouping surface of the heat sink and the LED light emitting member thereof can be set in a ring type. 14. The LED module of claim 1, wherein the LED assembly surface of the heat sink and the LEE&gt; light emitting member are linearly extended. 17