201113468 六、發明說明: 【發明所屬之技術領域】 本發明係有關一種LED燈泡的改良,尤指一種具有多 方向投射且散熱功能極佳的LED燈泡設計。 【先前技術】 習知LED燈泡,因内部的LED發光元件均朝向前端設 置,故光源都集中投射於前端的同一方向,週邊光源會較 薄弱,易有亮度不足現象,且整體的照明亮度不均勻,該 〇 LED燈泡雖具低耗電優點,但耐熱低,因此必須解決散熱 問題;如已知飛利浦(Philips)公司所製造的LED燈泡,就 是採用模鑄成型的金屬散熱殼座,用以提供散熱,但整體 笨重昂貴,散熱效果極有限,顯未臻實用。 依近來發展趨勢,一般LED或高功率LED發光元件的 燈泡,已逐漸取代傳統鎢絲發熱燈泡,相關技術也不斷提 升中,然已知LED燈泡係利用LED本體與其電源導腳或電 路基板的熱傳性進行散熱,經長時間使用,會累積溫度上 Ο 升,易造成LED電性不良或受損,特別是隨著LED發光元 件數量的增加而相對遞增溫度,其所面臨的散熱問題將更 加嚴重。 【發明内容】 本發明的主要目的,乃在於提供一種具有多方向投射 的LED燈泡設計,係包括一燈罩、一導熱基座、複數散熱 片、一導熱元件及複數個LED發光元件,該導熱基座的週 邊係結合設有複數散熱片,導熱基座具有一可緊配容納導 201113468201113468 VI. Description of the Invention: [Technical Field] The present invention relates to an improvement of an LED bulb, and more particularly to an LED bulb design having multi-directional projection and excellent heat dissipation function. [Prior Art] Conventional LED bulbs, because the internal LED light-emitting elements are all disposed toward the front end, the light sources are concentrated in the same direction of the front end, the peripheral light source will be weak, easy to have insufficient brightness, and the overall illumination brightness is uneven. Although the LED bulb has the advantages of low power consumption, but the heat resistance is low, it is necessary to solve the heat dissipation problem; for example, the LED bulb manufactured by Philips is known to be a molded metal heat sink seat for providing Heat dissipation, but the overall bulky and expensive, the heat dissipation effect is very limited, it is not practical. According to the recent development trend, the general LED or high-power LED light-emitting component bulb has gradually replaced the traditional tungsten filament heating bulb, and related technologies are also constantly improving. However, it is known that the LED bulb utilizes the heat of the LED body and its power supply lead or circuit substrate. Passive heat dissipation, after long-term use, will accumulate temperature rise, easily lead to LED electrical poor or damaged, especially as the number of LED light-emitting components increases relative to the temperature, the heat dissipation problem will be even more serious. SUMMARY OF THE INVENTION The main object of the present invention is to provide an LED bulb design with multi-directional projection, comprising a lamp cover, a heat conducting base, a plurality of heat sinks, a heat conducting component and a plurality of LED light emitting components, the heat conducting base The periphery of the seat is combined with a plurality of heat sinks, and the heat conductive base has a tight fit to accommodate the guide 201113468
’乃在於提供一種具有多方向投射 s亥導熱元件的露出端係亦可沖壓形成具 有多邊斜面及頂面的平頂錐體,以便在各斜面及頂面分^ 貼附結合-個或-個以上的LED發光元件,確實達到多方 向投射效果,以加強整體的照明亮度。 乃在於提供一種具有多方向投射 導熱元件的中孔係實施為一通孔 本發明的又一目的, 的LED燈泡設計,其中, ’或必要時亦可實料―盲孔,均可供導熱元件緊配嵌入 而固定容納,故整體組裝更方便快速且結合很穩固。 本發明的再一目的,乃在於提供一種具有多方向投射 的LED燈泡設計,其中,該導熱元件係可選擇實施為一熱 導管或銅柱(銅管),或亦可直接一體成型於鋁質導熱基座 的上端’藉此提供複數個LED發光元件的熱源可集中通過 該導熱元件而經由複數散熱片迅速釋放熱溫。 本發明的另一目的,乃在於提供一種具有多方向投射 的LED燈泡設計,其中,所述複數散熱片係可通過緊配嵌 合或焊接結合或鉚合固定等各種選定方式而環繞依附於導 201113468 熱基座的週邊’並圍繞構成一樓持端面’以供匹配結合一 半罩殼蓋的燈罩,使全部的複數散熱片均呈外露形態,故 與外界空氣為完全接觸相通’能進一步加強其散熱效果。 【實施方式】 茲依附圖實施例將本發明結構特徵及其他作用、目的 詳細說明如下: 如第一圖至第四圖所示,係本發明所為「具有多方向 投射的LED燈泡」的較佳實施例,其係包括:一燈罩1、 〇 一導熱基座2、複數散熱片3、一導熱元件4 (圖中的導 熱元件係選擇使用一熱導管)及複數個led發光元件5, 其中: 燈罩1 ’係一透光的半罩殼蓋,並相對結合於複數散 熱片3所圍繞構成的撐持端面,其可採用膠黏結合或扣接 結合等任意方式’使燈罩1固定設於複數散熱片3的撐持 端面(如第二、四圖)’而在燈罩1與複數散熱片3之間則 設置一導熱基座2、一導熱元件4及複數個led發光元件 0 5 ; 導熱基座2 ’其一端係植設結合一導熱元件4,另一 底端則可結合設置一燈泡的電連接頭(圖未顯示),導熱基 座2的週邊並環繞依附複數散熱片3 (如第三圖),且具有 一可容納導熱元件4的中孔21,該中孔21係以實施為如圖 示的通孔形態為較佳,係用以方便導熱元件4可快速緊配 嵌入而獲固定容納,惟同理可知,所述的中孔21於必要時 亦可實施為一盲孔’也能提供導熱元件緊配嵌入並固定容 201113468 複數散熱片3,係通過緊配嵌合或焊接結合或鉚合固 定等選定方式而依附結合於導熱基座2的週邊,如圖所示 ,複數散熱片3係採圍繞形態而固設於導熱基座2,並圍 繞構成一撐持端面,以供支撐結合燈罩1,且全部的複數 散熱片3均呈外露形態,可與外界空氣接觸相通,因此具 有更佳的散熱效果; 一導熱元件4,其可為一熱導管,係嵌入結合於導熱 基座2的中孔21,其露出端並沖壓形成具有複數個斜面41 及一頂面42,即如圖中所示,該導熱元件4的露出端係實 施為一具有多邊斜面41及一頂面42的三角形平頂錐體,進 而在各斜面41及頂面42分別貼附結合一個或一個以上的 LED發光元件5 ; 複數個LED發光元件5,其係可由單顆或多顆發光晶 元所構成,為將一個或一個以上的LED發光元件分別貼附 結合於導熱元件4的斜面41及頂面42 ; 依上述構件組成,所述複數個LED發光元件5係可利 用斜面41及頂面42的不同角度使複數個LED發光元件5產 生多方向投射效果’因此提升整體照明亮度,且LED發光 疋件5的全部熱源均集中通過導熱元件4將熱溫快速傳遞 ,並經由外露接觸空氣的複數散熱片3,獲迅速釋放熱溫 :故LED發光元件5不會過熱受損,更能確保燈泡的使用 胥命不受高溫影響。 如第五圖所示,係本發明的另一種實施例,其係針對 T熱兀•件4a的形態再施變化,主要使導熱元件4a的露出 端沖壓形成一呈四邊形的平頂錐體,故成型具有四邊斜面 201113468 4la及一頂面42a,故可於各斜面41 a及頂面42a分別貼附結 合一個或一個以上的LED發光元件5 ’以增加週邊光源的 亮度;同理可知,所述導熱元件4 ( 4 a)的露出端,亦可沖 壓形成其它多邊形的平頂錐體’如五邊形、六邊形或八邊 形等,皆為可行實施形態。 此外,關於導熱元件4 (4 a)與導熱基座2的適配結合 ,導熱元件4 (4 a)的總長度與中孔21的深度,亦可為同比 例的相對延伸;該導熱元件4 ( 4 a)主要係採用緊配結構而 ❹ 嵌入結合於中孔21為較佳實施例,但亦可改採導熱黏膠而 完成結合,或亦可通過焊接以完成結合,自無限制必要。 如本發明的導熱基座2,上述圖示係揭露為一中空座 體,但必要時亦可選擇實施為一實心座體,真導熱基座2 的形狀亦不以圓形體為限,其他如三角形、四角形、多邊 形或其它幾何形狀的座體,同理均可採用;炱於所述的複 數散熱片3,關於其形狀、大小、規格或整體排列形態, 當然也可以再做適當變換,故艽基於本發明主要技術内容 〇 所為簡易變化或等效置換’均應視為不脫本案技術範疇。 如第六圖所示,係本發明選擇以一銅柱(或銅管)作為 導熱元件6的又一種實施例,同理可將銅柱(銅管)的導熱 元件6嵌入結合於導熱基座2的中孔21,其露出端並具有 複數個斜面及一頂面,以分別提供一個或一個以上的LED 發光元件5貼附結合’而所述的銅柱係可為一實心柱體, 或亦可為一中空管體(即銅管)。 如第七圖所示,係本發明選擇以一體成型方式而將導 熱元件71直接附設於一紹質導熱基座7的上端,此時的|呂 201113468 質導熱基座7係可省略,但仍在一體成型的導熱元件71設 有複數個斜面及一頂面,同理可分別貼附結合一個或一個 以上的LED發光元件5,使複數個LED發光元件的熱源集 中通過該導熱元件71再經由複數散熱片3迅速釋放熱溫。 綜上所述,誠知本發明「具有多方向投射的LED燈泡 」設計,於整組成形態及手段應用屬新穎首創,並具實質 進步功效,敬請依法詳審並賜准專利,實感德便。 【圖式簡單說明】 第一圖為本發明的分解立體圖。 第二圖為本發明的組合立體圖。 第三圖為本發明的組合底視圖。 第四圖為第三圖的A — A剖面圖。 第五圖為本發明的另一實施例組合上視圖。 第六圖為本發明的又一實施例的組合剖面圖。 第七圖為本發明的再一實施例的組合剖面圖。 【主要元件符號說明】 1 燈罩 2、7 導熱基座 3 複數散熱片 4、4 a、 6、71導熱元件 5 LED發光元件 21 中孔 41 、41a 斜面 42 、 42a 頂面'It is to provide a flat end cone having a multi-directional projection s-thermal conduction element or stamped to form a flat-topped pyramid having a polygonal bevel and a top surface, so as to be attached to each of the slopes and the top surface. The above LED light-emitting elements do achieve a multi-directional projection effect to enhance the overall illumination brightness. The present invention provides a LED bulb design having a mesoporous structure with a multi-directional projection heat conducting element implemented as a through hole. In addition, the 'or, if necessary, the material--blind hole can be used for the heat-conducting element. With the embedded and fixed accommodation, the overall assembly is more convenient and fast, and the combination is very stable. A further object of the present invention is to provide an LED bulb design with multi-directional projection, wherein the thermally conductive element can be optionally implemented as a heat pipe or a copper column (copper tube), or can be directly integrated into aluminum. The upper end of the thermally conductive pedestal 'by virtue of providing a plurality of LED illuminating elements can be concentrated through the thermally conductive element to rapidly release the thermal temperature via the plurality of fins. Another object of the present invention is to provide an LED bulb design having multi-directional projection, wherein the plurality of fins can be attached to the guide by various fitting methods such as tight fitting or welding bonding or riveting fixing. 201113468 The periphery of the thermal base 'and around the first floor holding the end face' to match the lampshade with the half cover cover, so that all the multiple heat sinks are exposed, so it is in full contact with the outside air' can further strengthen its heat radiation. [Embodiment] The structural features and other functions and objects of the present invention are described in detail below with reference to the accompanying drawings. As shown in the first to fourth embodiments, the present invention is preferably a "LED bulb having multi-directional projection". The embodiment includes a lampshade 1, a heat conducting base 2, a plurality of heat sinks 3, a heat conducting component 4 (the heat conducting component in the figure is selected to use a heat pipe), and a plurality of LED light emitting components 5, wherein: The lampshade 1' is a light-transmissive half-shell cover and is relatively coupled to the supporting end surface formed by the plurality of heat-dissipating fins 3, and can be fixed in a plurality of heat-dissipating manners by any means such as adhesive bonding or fastening bonding. A supporting end surface of the sheet 3 (such as the second and fourth figures) is disposed between the lampshade 1 and the plurality of fins 3, a heat conducting base 2, a heat conducting element 4 and a plurality of LED light emitting elements 0 5; the heat conducting base 2 'The other end of the plant is combined with a heat-conducting element 4, and the other end can be combined with a light bulb electrical connector (not shown), the periphery of the heat-conducting base 2 and surrounding the plurality of heat sinks 3 (such as the third figure) ), and has one The middle hole 21 of the heat conducting element 4 is preferably formed in the form of a through hole as shown in the figure, which is convenient for the heat conducting element 4 to be quickly and tightly fitted and fixedly received, but it is also known that The middle hole 21 can also be implemented as a blind hole if necessary. It can also provide a heat-conducting component to fit and fix the 201113468 plurality of heat sinks 3, which are selected by tight fitting or welding or riveting. And attached to the periphery of the heat-conducting base 2, as shown in the figure, the plurality of heat-dissipating sheets 3 are fixed around the heat-conducting base 2 in a surrounding form, and surround a supporting end surface for supporting the combined lampshade 1, and all of them The plurality of heat sinks 3 are in an exposed state, and can communicate with the outside air, thereby having a better heat dissipation effect. A heat conducting component 4, which can be a heat pipe, is embedded in the middle hole 21 of the heat conducting base 2, The exposed end is stamped to form a plurality of inclined faces 41 and a top surface 42. As shown in the figure, the exposed end of the heat conducting element 4 is implemented as a triangular flat top cone having a polygonal inclined surface 41 and a top surface 42. Further on each slope 41 and top The surface 42 is respectively attached with one or more LED light-emitting elements 5; a plurality of LED light-emitting elements 5, which may be composed of single or multiple light-emitting crystal elements, for respectively attaching one or more LED light-emitting elements The plurality of LED light-emitting elements 5 can be combined with the angles of the inclined surface 41 and the top surface 42 to generate a multi-directional projection effect of the plurality of LED light-emitting elements 5 according to the above-mentioned components. 'Therefore, the overall illumination brightness is increased, and all the heat sources of the LED light-emitting element 5 are concentratedly transmitted through the heat-conducting element 4, and the heat is rapidly released through the plurality of heat-dissipating fins 3 exposed to the exposed air: thus the LED light-emitting element 5 It will not be damaged by overheating, and it will ensure that the life of the bulb is not affected by high temperature. As shown in the fifth figure, another embodiment of the present invention is applied to the shape of the T heat sink member 4a, and the exposed end of the heat conductive member 4a is mainly stamped to form a quadrangular flat top cone. Therefore, the molding has a four-sided bevel 201113468 4la and a top surface 42a. Therefore, one or more LED light-emitting elements 5' can be attached to each of the inclined surfaces 41a and the top surface 42a to increase the brightness of the peripheral light source. Similarly, it can be known that The exposed end of the heat conducting element 4 ( 4 a ) can also be stamped to form other polygonal flat top cones such as a pentagon, a hexagon or an octagon, etc., which are all feasible embodiments. In addition, with regard to the adaptation of the heat conducting element 4 (4 a) to the heat conducting base 2, the total length of the heat conducting element 4 (4 a) and the depth of the middle hole 21 may also be the same relative extension; the heat conducting element 4 (4 a) mainly adopts a tightly-fitted structure and 嵌入 is embedded and bonded to the middle hole 21 as a preferred embodiment, but the thermal conductive adhesive may be used to complete the bonding, or may be welded to complete the bonding, which is necessary without limitation. As shown in the heat-conducting base 2 of the present invention, the above-mentioned illustration is disclosed as a hollow seat body, but may be selected as a solid seat body if necessary, and the shape of the true heat-conductive base 2 is not limited to a circular body. A seat such as a triangle, a quadrangle, a polygon or another geometric shape may be used in the same manner; and the shape, size, specification or overall arrangement of the plurality of heat sinks 3 may be appropriately changed. Therefore, based on the main technical content of the present invention, the simple change or the equivalent replacement should be regarded as not departing from the technical scope of the present invention. As shown in the sixth figure, the present invention selects a copper column (or copper tube) as a further embodiment of the heat conducting element 6. Similarly, the heat conducting element 6 of the copper column (copper tube) can be embedded and bonded to the heat conducting base. The middle hole 21 of the second hole 21 has an exposed surface and a plurality of inclined surfaces and a top surface to respectively provide one or more LED light-emitting elements 5 to be bonded together, and the copper pillar system may be a solid cylinder, or It can also be a hollow tube (ie copper tube). As shown in the seventh figure, the present invention selects the heat-conducting element 71 to be directly attached to the upper end of a heat-conducting heat-conducting base 7 in an integrally formed manner. At this time, the |Lu 201113468 heat-conductive base 7 can be omitted, but still The integrally formed heat conducting element 71 is provided with a plurality of inclined surfaces and a top surface. Similarly, one or more LED light emitting elements 5 may be respectively attached, so that the heat sources of the plurality of LED light emitting elements are concentrated through the heat conducting element 71. The plurality of fins 3 quickly release the hot temperature. In summary, it is known that the "LED bulb with multi-directional projection" design of the present invention is a novel initiative in the application of the whole form and means, and has substantial progress. Please review and grant the patent in accordance with the law. . BRIEF DESCRIPTION OF THE DRAWINGS The first figure is an exploded perspective view of the present invention. The second figure is a combined perspective view of the present invention. The third figure is a combined bottom view of the present invention. The fourth picture is the A-A cross-sectional view of the third figure. The fifth figure is a combined top view of another embodiment of the present invention. Figure 6 is a combined cross-sectional view showing still another embodiment of the present invention. Figure 7 is a cross-sectional view showing a combination of still another embodiment of the present invention. [Main component symbol description] 1 Lamp cover 2, 7 Thermal base 3 Multiple heat sink 4, 4 a, 6, 71 Thermal element 5 LED light-emitting element 21 Middle hole 41, 41a Bevel 42 , 42a Top surface