WO2008106847A1

WO2008106847A1 - Heat dissipating structure of led

Info

Publication number: WO2008106847A1
Application number: PCT/CN2007/003458
Authority: WO
Inventors: Ben Fan
Original assignee: Heshan Lide Electronic Enterprise Co Ltd
Current assignee: Heshan Lide Electronic Enterprise Co Ltd
Priority date: 2007-03-08
Filing date: 2007-12-06
Publication date: 2008-09-12
Anticipated expiration: 2009-09-08
Also published as: JP3141198U; CN201038186Y

Abstract

A heat dissipating structure of LED comprises a translucent cover (1), a chip (3), a base (2), electrode pieces (4) and a heat sink (5). The base (2) is bowl shaped. There is a circular through hole (23) in the center of the base (2). The heat sink (5) is in the through hole (23). The chip (3) is mounted on the heat sink (5). Each electrode of chip (3) is connected to at least two electrode pieces (5). Heat is dissipated through the heat sink (5) and the electrode pieces (4).

Description

LED的散热结构技术领域 LED heat dissipation structure

本实用新型属于照明灯具领域，尤其是指一种大功率 LED。背景技术 The utility model belongs to the field of lighting lamps, in particular to a high-power LED. Background technique

发光二极管 (LED)作为照明灯具已经非常广泛地被使用，为了追求更理想的照明光线效果，提升发光二极管的功率是最常用，也是最经济的一种方法。但随着发光二极管功率的提高，它的发热程度也更为严重。发光二极管的发热，对它的发光效率和使用寿命都有着极为负面的影响，因此现阶段人们对发光二极管的散热方法都进行了许多不同的尝试。现有的方案基本都是采用散热性能良好的金属给发光二极管散热，比如使用全金属的灯座，再附加散热块等等，虽然有一定效果，但是这样的方法成本太高，散热介质多，而且对于金属的加工生产工艺很麻烦，不适合大批量生产。对于 LED的散热，散热系统热阻的大小是一个关键，减少散热介质对降低热阻有明显的效果。因此，仅使用导热良好的材料并不是最为有效且经济的方法，减小散热系统的热阻才是最有效的手段。发明内容 Light-emitting diodes (LEDs) have been widely used as lighting fixtures. In order to achieve better illumination effects, increasing the power of LEDs is the most common and economical method. However, as the power of the LED increases, its degree of heat is also more serious. The heat generation of the LED has a very negative impact on its luminous efficiency and service life. Therefore, at present, people have made many different attempts at the heat dissipation method of the LED. The existing solutions basically use heat-dissipating metal to dissipate the light-emitting diodes. For example, using an all-metal lamp holder, and then attaching a heat-dissipating block, etc., although there is a certain effect, such a method is too expensive and has many heat-dissipating media. Moreover, the metal processing and production process is troublesome and is not suitable for mass production. For the heat dissipation of the LED, the thermal resistance of the heat dissipation system is a key factor. Reducing the heat dissipation medium has a significant effect on reducing the thermal resistance. Therefore, using only materials with good thermal conductivity is not the most efficient and economical method, and reducing the thermal resistance of the heat dissipation system is the most effective means. Summary of the invention

本实用新型的目的就是为了提供一种热阻低、散热效果好，且生产工艺简单、成本低的大功率 LED, 以解决上述存在的技术问题。 The purpose of the utility model is to provide a high-power LED with low thermal resistance, good heat dissipation effect, simple production process and low cost, so as to solve the above technical problems.

本实用新型是一种大功率 LED, 包括透明罩，芯片，基座，电极片和散热片，上述基座呈杯碗状，其中心部位有一个圆形通孔，上述散热片在所述通孔内，其特征是：所述圆形通孔内壁与散热片组成一个灯杯，芯片位于此灯杯内且紧贴在散热片上，所述每个极性的电极片一端带有至少二片分电极片。 The utility model relates to a high-power LED, which comprises a transparent cover, a chip, a base, an electrode piece and a heat sink. The base is in the shape of a cup and has a circular through hole at a central portion thereof, and the heat sink is in the through hole. In the hole, the inner wall of the circular through hole and the heat sink form a lamp cup, the chip is located in the lamp cup and is closely attached to the heat sink, and the electrode piece of each polarity has at least two pieces at one end. Part electrode.

所述芯片位于构成上述灯杯的圆形通孔的轴线上。 The chip is located on the axis of the circular through hole constituting the above lamp cup.

所述构成上述灯杯的圆形通孔内壁上带有反光层。 The inner wall of the circular through hole constituting the lamp cup is provided with a light reflecting layer.

所述电极片分为正、负二个极性，并按其极性连接在基座的两侧，且与散热片在同一个平面内。 The electrode sheets are divided into positive and negative polarities, and are connected to both sides of the base according to their polarities, and are in the same plane as the heat sink.

所述电极片中同一个极性的电极片一端有二片分电极片，即整个电极片有四片分电极片。 One end of the electrode sheet of the same polarity in the electrode sheet has two partial electrode sheets, that is, the entire electrode sheet has four partial electrode sheets.

所述的芯片与每一片分电极片之间有一根导线按其极性相连接。所述基座的侧壁上有凹孔，透明罩的侧壁上有环形凸耳，该环形凸耳与上述凹孔相匹配。 A wire is connected between the chip and each of the partial electrodes in accordance with their polarities. The side wall of the base has a recessed hole, and the side wall of the transparent cover has an annular lug, and the annular lug is matched with the recessed hole.

所述的基座内有凸台，该凸台的顶面与上述凹孔的底面平齐。 The base has a boss, and a top surface of the boss is flush with a bottom surface of the recess.

所述灯杯内芯片上覆盖有荧光粉与硅胶的混合物。 The chip in the lamp cup is covered with a mixture of phosphor and silica gel.

本实用新型釆用上述的方案后，它的结构非常简单，透明罩与基座都可以采用相对便宜的塑料材料直接在模具里制作，因此生产工艺也简单，成本低，适合大批量生产；更为重要的一点是，采用上述的 LED结构后，它的散热介质少，热阻小，经过测试， '其热阻在 10K/W (开 /瓦）以下，因此它的散热效果良好。本实用新型的特点在于使用价格便宜的材料，同时也减小了散热系统的热阻，既达到了散热的目的又节省了成本。附图说明 After the above solution is adopted, the structure of the utility model is very simple, and the transparent cover and the base can be directly fabricated in the mold by using relatively cheap plastic materials, so the production process is simple, the cost is low, and the utility model is suitable for mass production; It is important to use the LED structure described above that it has less heat dissipation medium and less thermal resistance. After testing, its thermal resistance is below 10K/W (on/watt), so its heat dissipation effect is good. The utility model is characterized in that the material with low price is used, and the thermal resistance of the heat dissipation system is also reduced, which not only achieves the purpose of heat dissipation but also saves cost. DRAWINGS

图 1是本实用新型的外观图； Figure 1 is an external view of the utility model;

图 2是本实用新型的分解示意图； Figure 2 is an exploded perspective view of the utility model;

图 3是本实用新型中基座的示意图； Figure 3 is a schematic view of the base of the present invention;

图 4是图 1中的 A-A剖视图； Figure 4 is a cross-sectional view taken along line A-A of Figure 1;

图 5是本实用新型的电极片与散热片的俯视图。具体实施方式 Figure 5 is a plan view of the electrode sheet and the heat sink of the present invention. detailed description

如图 1和图 2所示，本实用新型包括透明罩 1，基座 2, 芯片 3，电极片 4和散热片 5。如图 2和图 4中所示，透明罩 1是一个半球形，内部有一定的弧度，使它能使光线折射一定角度，两侧壁上带有环形凸耳 11 ; 如图 2和图 3中所示，基座 2整体呈杯碗状，其中心部位有一个圆形通孔 23，侧壁上有两个凹孔 21，基座内靠近侧壁有四个凸台 22; 如图 5所示，位于基座 2—端的电极片 4分成两片分电极片，散热片 5中间是圆形部位 51，两侧延伸有方形部位 52。 As shown in FIGS. 1 and 2, the present invention includes a transparent cover 1, a base 2, a chip 3, an electrode sheet 4, and a heat sink 5. As shown in FIG. 2 and FIG. 4, the transparent cover 1 is a hemispherical shape having a certain curvature inside, so that it can refract light at a certain angle, and the side walls are provided with annular lugs 11; as shown in FIG. 2 and FIG. As shown in the figure, the base 2 has a cup-shaped shape as a whole, and has a circular through hole 23 at a central portion thereof, two recessed holes 21 in the side wall, and four bosses 22 in the base near the side wall; As shown, the electrode sheet 4 at the end of the base 2 is divided into two partial electrode sheets, and the heat sink 5 has a circular portion 51 in the middle and a square portion 52 on both sides.

透明罩 1与基座 2都采用塑料制成，通过专门的模具一次成型。在基座 2成型的同时，将电极片 4和散热片 5置于模具内，基座 2成型后，电极片 4和散热片 5都被镶嵌在基座 2 内，如图 1和图 2中所示结构。散热片 5中间的圆形部位 51的半径与基座 2上圆形通孔 23 的半径一致，散热片 5的圆形部位 51卡在圆形通孔 23内，而它的方形部位 52则贯穿于圆形通孔 23的内壁，这样散热片 5与圆形通孔 23内壁就形成了一个灯杯，芯片 3位于此灯杯内且紧贴在散热片 5上，如图 2中所示。透明罩 1盖在基座 2上，透明罩 1两侧的凸耳 11盖在基座 2上与凸耳 11相匹配的凹孔 21内，其余边缘处则盖在基座 2内的四个凸台 22 上，为了使透明罩 1平稳地盖在基座 2上，所以制作基座 2时，确保凹孔 21的底面与四个凸台 22的顶面在同一个平面内。 Both the transparent cover 1 and the base 2 are made of plastic and molded in one time by a special mold. While the susceptor 2 is being formed, the electrode sheet 4 and the heat sink 5 are placed in the mold. After the susceptor 2 is formed, the electrode sheet 4 and the heat sink 5 are both embedded in the susceptor 2, as shown in FIGS. 1 and 2. The structure shown. The radius of the circular portion 51 in the middle of the heat sink 5 coincides with the radius of the circular through hole 23 on the base 2, and the circular portion 51 of the heat sink 5 is caught in the circular through hole 23, and the square portion 52 thereof penetrates. On the inner wall of the circular through hole 23, the heat sink 5 and the inner wall of the circular through hole 23 form a lamp cup, and the chip 3 is located in the lamp cup and is in close contact with the heat sink 5, as shown in FIG. The transparent cover 1 is placed on the base 2, and the lugs 11 on both sides of the transparent cover 1 cover the recesses 21 in the base 2 matching the lugs 11, and the remaining edges are covered in the base 2 Boss 22 Above, in order to smoothly cover the transparent cover 1 on the susceptor 2, when the susceptor 2 is fabricated, it is ensured that the bottom surface of the recessed hole 21 is in the same plane as the top surface of the four bosses 22.

本实用新型有主辅两个散热途径。其主要途径即通过散热片 5传热至外界，次要途径是通过电极片 4散热。第一个途径，发热的芯片 3紧贴于散热片 5上，散热片 5可贴附于其它导热良好的支架上，以传导热量；第二个途径，基座 2两侧的电极片 4分为两个分电极片，此分电极片与散热片 5位于同一平面内，如图 5中所示，再用导热性能良好的导线 6 将芯片 3与电极片 4按极性连接，芯片 3产生的热量经导线 6传导至电极片 4，再由电极片 4散热。电极片 4分为两个分电极片以增大散热面积，另外为了更好的导热效果，一端的分电极片都采用多根导线 6与芯片 3上相应的一极连接，本实用新型一个分电极片分别使用二根导线 6与芯片 3连接，即总共使用四根导线连接，增强传热效果。以上结构使本实用新型具备了优异的散热效果，经测试本实用新型散热系统的热阻可以达到 10K/W (开 /瓦）以下。 The utility model has two main heat dissipation paths. The main way is to transfer heat to the outside through the heat sink 5, and the secondary way is to dissipate heat through the electrode sheets 4. In the first way, the hot chip 3 is attached to the heat sink 5, and the heat sink 5 can be attached to other heat-conducting brackets to conduct heat; the second way, the electrode sheets on both sides of the base 2 are 4 points. The two sub-electrode pieces are in the same plane as the heat sink 5, as shown in FIG. 5, and the chip 3 and the electrode sheet 4 are connected in polarity by the wire 6 with good thermal conductivity, and the chip 3 is produced. The heat is conducted to the electrode sheet 4 via the wire 6, and is then radiated by the electrode sheet 4. The electrode sheet 4 is divided into two partial electrode sheets to increase the heat dissipation area. In addition, for better heat conduction effect, the partial electrode sheets at one end are connected by a plurality of wires 6 and a corresponding one pole on the chip 3. The electrode sheets are respectively connected to the chip 3 by using two wires 6, that is, a total of four wires are used for connection to enhance the heat transfer effect. The above structure makes the utility model have excellent heat dissipation effect, and the thermal resistance of the heat dissipation system of the utility model can be tested to be less than 10K/W (open/watt).

为了达到更好的光线效果，本实用新型也采取了一系列相应的措施。首先，透明罩 1 带有一定弧度，使光线经过一定角度的折射后出射；其次，本实用新型还在圆形通孔 23的内壁上电镀有反光层 231，使射向侧边的一部分光线反射向透明罩 1 ; 再者，为了使光线效. 果更佳，本实用新型将芯片 3设置于散热片 5的中心位置，即位于圆形通孔 23的轴线上；最后，在芯片 3上还覆盖有荧光粉与硅胶的混合物，以增加发光和散光效果。 In order to achieve better light effects, the utility model also adopts a series of corresponding measures. First, the transparent cover 1 has a certain curvature, so that the light is refracted after being refracted at a certain angle. Secondly, the utility model is further plated with a reflective layer 231 on the inner wall of the circular through hole 23 to reflect a part of the light that is directed to the side. Further, in order to make the light effect better, the present invention sets the chip 3 at the center of the heat sink 5, that is, on the axis of the circular through hole 23; finally, on the chip 3 Covered with a mixture of phosphor and silica gel to increase luminescence and astigmatism.

本实用新型生产工艺也简单，成本低，同时也减小了散热系统的热阻，既达到了散热的目的又节省了成本，适合于大批量生产。 The utility model has the advantages that the production process is simple, the cost is low, and the thermal resistance of the heat dissipation system is also reduced, which not only achieves the purpose of heat dissipation but also saves cost, and is suitable for mass production.

Claims

Rights request

a high-power LED comprising a transparent cover, a chip, a base, an electrode pad and a heat sink, wherein the base is in the shape of a cup and has a circular through hole at a central portion thereof, and the heat sink is in the through hole The inner wall of the circular through hole and the heat sink form a lamp cup, the chip is located in the lamp cup and is closely attached to the heat sink, and the electrode piece of each polarity has at least two partial electrode pieces at one end. .

The high power LED according to claim 1, wherein: said chip is located on an axis of a circular through hole constituting said lamp cup.

The high-power LED according to claim 1, wherein: the inner wall of the circular through hole constituting the lamp cup is provided with a light reflecting layer.

The high-power LED according to claim 1, wherein: said electrode sheet is divided into positive and negative polarities, and is connected to both sides of the base according to its polarity, and is in the same heat sink In the plane.

The high-power LED according to claim 4, wherein: one of the electrode sheets of the same polarity in the electrode sheet has two partial electrode sheets at one end, that is, the entire electrode sheet has four partial electrode sheets.

The high-power LED according to claim 5, wherein: between the chip and each of the partial electrodes, a wire is connected in polarity.

The high power LED according to claim 1, wherein: the side wall of the base has a recessed hole, and the side wall of the transparent cover has an annular lug, and the annular lug is matched with the recessed hole.

The high-power LED according to claim 7, wherein: the base has a boss, and a top surface of the boss is flush with a bottom surface of the recess.