201207304 六、發明說明: 【發明所屬之技術領域】 -種照明I置,尤其是—種兼具散熱座及多層式陣列型 發光二極體模組之照明裝置。 【先前技術】 照明設備為日常生活中不可或缺的生活用品,改變了人 們的生活方式,現今於—般家庭中或公眾的室内場合,皆可 • 看到使用各式各樣的照明設備,例如:日光燈、照明燈、檯 燈、吊燈、霓虹燈料’對於昏暗所帶來的顿可以透過照 明設備加以改善。 對於不同的照明設備而言,其應用的用途也具有差里,例 如:-般日光燈、照明燈、檯燈...等,其為一般照明的使用, 而也有-些特殊用途的照明設備例如:紐,即為應用於人 們入睡時所提供的照明,其發光功率較低,僅為輔助之用。 傳統式之燈管或燈泡具有升溫快及耗電量高之缺點,且燈具 • 在廢棄後會導致環保的問題’因此,近年來便發展出以發光 二極體(Light Emitting Diode,LED)作為發絲的技術。 雖然發光二極體具絲電·、元件壽命長、無須暖燈時 間及反應速度快等優點,但一般的發光二極體其所發出的亮 度較傳統式燈泡或燈管為低’因此是採用高功率的發光二極 體來作為照明光源。高功率的發光二極體雖可提供較為更高 的焭度,但其在持續使用的狀態下,會因溫度升高而 光的效率,因此,如何使LED照明具有更佳的照明效果 效提升其散熱效果,實為業界技術再提升之重要課題。 201207304 【發明内容】 本發明的主要目的在於提供一種兼具散熱座及多層式陣 列型發光二極體模組之照明裝置,其中本發明係利用一種多 層式陣列型發光二極體模組作為光源,透過發光二極體之高 效能及可節省電能之伽,尤其是將賴元件設計成可透過 空氣對流方式自舰賴量逸散之構造,以確保各電子元件 不受熱能影響其效能,而發揮其最佳性能,其中本發明可輕 易與各種祕整合’甚至提供錢化設計需求,滿足各種應 0 用需求。 為達上述目的,本發明之具體技術手段包含有:至少 -散熱座’該散熱座具有—容置槽,嫌熱座可與一燈 具構件相組裝,其中該散熱座於該容置槽周圍設置有複 數個散熱通孔’該等散熱通孔係至少穿設於該散熱座之 垂直方向及水平方向,於垂直方向及水平方向之該等散 熱通孔還可相互連通;至少一 LED發光模組’該LED發 光模組係絲於該容置槽之表面上;—嵌合板,該嵌合 板聽合於财置射並與概齡相關,該嵌合板 具有至少一開口部,該開口部之開口須對應於該⑽發 光模組之位置’以容置該LED發光模組於其中,其中該 開口部頂面與該散熱座表面留有一段差以形成一嵌置 槽;以及-透鏡,該透鏡係嵌合於該嵌置槽之中。 因此,本發明可解決上述習用技術之缺失,有效提升 其散熱效果,並讓led照明具有更佳的照明效果。 201207304 【實施方式】 以下配合圖式及元件符號對本發明之實施方式做更詳細 的說明’俾使熟習該項技藝者在研讀本說明書後能據以實施。 參閱第一圖,本發明之兼具散熱座及多層式陣列型發光 二極體模組之照明裝置之分解示意圖。參閱第二圖,本發明 之兼具散熱座及多層式陣列型發光二極體模組之照明裝置之 組合示思圖。本發明係有關一種兼具散熱座及多層式陣列型 發光二極體模組的照明裝置,其中本發明係包含有至少一個 φ 散熱座1、至少一個LED (發光二極體)發光模組3、一嵌合 板5及一透鏡7,該散熱座1為一立方體其可與一燈具構件 相組裝,該散熱座1至少具有一容置槽11,該容置槽11於 圖一中係設置於該散熱座1之中間區塊。要注意的是,容置 槽11的WL置位置係依據實際需求而定,在此僅是說明用的實 例而已,並非用以限制本發明的範圍。 其中該散熱座1於該容置槽U周圍設置有複數個散熱通 孔13,其中該散熱座i於該容置槽u周圍設置有複數個散 • 熱通孔13,該等散熱通孔13係至少貫穿於該散熱座丨之垂 直方向及水平方向,於垂直方向及水平方向之該等散熱通孔 13還可相互連通。其中,上述之該等散熱通孔13亦可相互 斜向交錯設置並可相互連通。 該至少一個LED發光模組3係安裝於該容置槽11之表面 上,該LED發光模組3係受電源驅動而發光,如圖一的實施 例所示,可使用為數四個的LE:D發光模組3以陣列排列方式 平,分散地固設_容置槽n之表面上,如此可有效增加發 光a·度及發光範圍。要注意的是led發光模組之數目及配置 方式係依據實際需求而定,在此僅是說明用的實例而已,並 201207304 非用以限制本發明的範圍。 該敌合板5係嵌合於該容置槽n内並與該散熱座i相組 固’其組固方式包含如圖i所示之鎖固方式或其他適當方 式’該嵌合板5之尺寸形狀係可相對應於該容置槽u之尺寸 形狀’其中該齡板5具有至少1口部51其概呈底窄頂寬 之圓錐狀’該開口部51之開口須相對應於該LE:D發光模組3 之位置,以容置該LED發光模組3於其中,如圖一實施例所 示,須配ί為數四個的開π部51以分別對應四個⑽發光模 φ 組3 ’如此每一該LE:D發光模組3皆受每一開口部5之包圍。 另該開口部51頂面與該散熱座!表面留有一段差以形成 一嵌置槽511 ’並創每一開口部51之内壁面上可進一步安裝 至少-反射罩6 ’其用以加縣線之反射或混光效果,而該 透鏡7係嵌置於該嵌置槽511上。 如此WD發光模組3發光時,其所發射的直向光線直接 投射出去,而非直向光線則經由開口部51之内壁面反射出 去,使得光線在特定空範圍中重疊交集,提升發光亮度及光 均勻性,以產生明亮且柔和光源。 •參閱第三圖,本發明之兼具散熱座及多層式陣列型發 光二極體模組之照明裝置之第一實施例。本發明實際上 可應用於各種燈組或照明器具上,第三圖係以可調整高 度之閱讀燈為例,該散熱座1的一側邊可設置有一結合 孔(圖面未顯示)’該結合孔可與具彎折性之燈桿1〇1之 一端相連結’該燈桿101之另一端則與燈座103相組立, 如此可依據使用者需求而調整高度。 另外LED發光模組3發光時伴隨產生之熱能先由散熱 座1所吸收,再由流經散熱通孔13之空氣將熱能帶走, ^ 【S3 6 201207304 透過環境巾空氣對流_直接逸散熱能的方式不僅非常 祕並且節省㈣成本’再把難影響降至最低之條件 下,可使LED發賴組3之電子元件雜優異效能,適 合長時間閱讀使用。 參閱第四圖’本發明之兼具散熱座及錢式陣列型發 光二極體模組之照明裝置之第二實施例。第四圖係以可 調整角度桌燈為例’該散熱座1之反面係與可f折之調 整件310的-端相組固,且在相同面上另外設置门字型 • +把32〇,而可彎折之調整件310的另-端則與L型燈桿 330的-端相連結’ l型燈桿33〇的另一端則裝設於燈座 340上如此透過提引手把32〇則可輕鬆調整出光角度。 由上躺倾财再:欠印證,本發日贈常適合作為各 種燈具組之照明光源細,甚至各種電子設備之示器之 輔助光源,另以陣列方式配置之發光模組3並配合 反射罩6所提供多-道的光學作用,可有效控制發光亮 度及色度。 鲁參閱第五圖,本發明之兼具散熱座及多層式陣列型發 光二極體模組之照明裝置之另一使用狀態之立體示意X 圖。本發明可包含有複數贿熱座1及兩畴4 8,每-散熱座1為-立方體’其係概呈一梯形或其他適當形狀 之立方體’該等散熱座i係用以排組成一多邊形之柱型 結構,如圖五所示,該等散熱座1使用數量為四個,則 :排組一四邊形之柱型結構,每-散熱座1各具有一上 端面111及一下端面113,該上端面111及該下端面113 至少具有-鎖孔ilia。要注意的是,上述的散熱座之形 狀及數目視實際需要而定,在此僅是說明用的實例而 201207304 已,並非用以限制本發明的範圍。 該山兩固持片8係分別鎖設於該等散熱座i之上 ==藉7立緊固該等散熱座!,其中每-固 複=: ::_,該兩_:::=:=201207304 VI. Description of the invention: [Technical field to which the invention pertains] - A type of illumination, in particular, a lighting device having a heat sink and a multilayer array type light emitting diode module. [Prior Art] Lighting equipment is an indispensable daily necessities in daily life, which has changed people's lifestyles. Nowadays, in the ordinary family or in the public indoors, you can see the use of various lighting equipment. For example: fluorescent lamps, lighting lamps, table lamps, chandeliers, neon lights, 'for darkness can be improved through lighting equipment. For different lighting equipment, the application of the application is also poor, for example: - fluorescent lamps, lamps, lamps, etc., which are used for general lighting, but also some special-purpose lighting equipment such as: New, which is applied to the lighting provided by people when they fall asleep, has low luminous power and is only used for auxiliary purposes. Conventional lamps or bulbs have the disadvantages of fast heating and high power consumption, and the lamps and lanterns can cause environmental problems after being discarded. Therefore, in recent years, Light Emitting Diode (LED) has been developed as a light-emitting diode (LED). Hair technology. Although the light-emitting diode has the advantages of filament electricity, long component life, no need for warming time and fast response speed, the general light-emitting diode emits lower brightness than a conventional light bulb or a lamp tube. A high power light emitting diode is used as the illumination source. Although the high-power light-emitting diode can provide a higher degree of twist, but in the state of continuous use, the efficiency of light will increase due to temperature rise. Therefore, how to make LED lighting have better lighting effect and improve heat dissipation. The effect is an important issue for the industry to improve its technology. 201207304 SUMMARY OF THE INVENTION The main object of the present invention is to provide a lighting device having a heat sink and a multilayer array type light emitting diode module, wherein the present invention utilizes a multilayer array type light emitting diode module as a light source. Through the high-performance energy of the LED and the energy saving, especially the design of the device is designed to be escaping from the ship through air convection, so as to ensure that each electronic component is not affected by thermal energy, The best performance, in which the invention can be easily integrated with various secrets' even provides a need for money design to meet a variety of requirements. To achieve the above objective, the specific technical means of the present invention includes: at least a heat sink, the heat sink has a receiving groove, and the heat sink can be assembled with a lamp member, wherein the heat sink is disposed around the receiving groove The plurality of heat dissipation through holes are disposed at least in a vertical direction and a horizontal direction of the heat dissipation seat, and the heat dissipation through holes in the vertical direction and the horizontal direction are also connected to each other; at least one LED light emitting module 'The LED lighting module is affixed to the surface of the accommodating groove; a fitting plate that is audible and associated with the age, the fitting plate having at least one opening, the opening of the opening Corresponding to the position of the (10) light-emitting module to accommodate the LED light-emitting module therein, wherein a top surface of the opening portion is spaced apart from the surface of the heat-dissipating block to form an embedding groove; and a lens, the lens system Fitted into the embedding groove. Therefore, the present invention can solve the above-mentioned lack of the conventional technology, effectively improve the heat dissipation effect, and make the LED illumination have better illumination effect. [Embodiment] Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings and the reference numerals, which can be implemented by those skilled in the art after having studied this specification. Referring to the first figure, an exploded view of a lighting device having a heat sink and a multilayer array type LED module is provided. Referring to the second figure, a combination diagram of the illumination device of the present invention having a heat sink and a multilayer array type light emitting diode module is shown. The present invention relates to a lighting device having a heat sink and a multilayer array type light emitting diode module, wherein the present invention comprises at least one φ heat sink 1, at least one LED (light emitting diode) light emitting module 3 a framing plate 5 and a lens 7. The heat sink 1 is a cube which can be assembled with a luminaire member. The heat sink 1 has at least one accommodating groove 11. The accommodating groove 11 is disposed in FIG. The middle block of the heat sink 1. It is to be noted that the WL placement of the accommodating slot 11 is based on actual needs and is merely illustrative of the scope of the invention and is not intended to limit the scope of the invention. The heat sink 1 is provided with a plurality of heat dissipation through holes 13 around the accommodating groove U. The heat dissipation seat i is provided with a plurality of heat dissipation holes 13 around the accommodating groove u. The heat dissipation holes 13 are provided. The heat dissipation through holes 13 in the vertical direction and the horizontal direction may communicate with each other at least in a vertical direction and a horizontal direction of the heat dissipation seat. The heat dissipation through holes 13 may be alternately arranged obliquely to each other and communicate with each other. The at least one LED lighting module 3 is mounted on the surface of the accommodating slot 11, and the LED lighting module 3 is driven by the power source to emit light. As shown in the embodiment of FIG. 1, four LEDs can be used. The D-light-emitting module 3 is arranged in an array, and is dispersedly fixed on the surface of the accommodating groove n, so that the illuminating a·degree and the illuminating range can be effectively increased. It should be noted that the number and configuration of the LED lighting modules are based on actual needs, and are merely illustrative examples, and 201207304 is not intended to limit the scope of the present invention. The enemy board 5 is fitted into the receiving slot n and assembled with the heat sink i. The mounting manner includes a locking manner as shown in FIG. 1 or other suitable manner. The size and shape of the fitting plate 5 Corresponding to the size shape of the accommodating groove u, wherein the age plate 5 has at least one mouth portion 51 which has a conical shape with a narrow bottom width. The opening of the opening portion 51 corresponds to the LE: D The position of the light-emitting module 3 is to accommodate the LED light-emitting module 3 therein. As shown in the embodiment, the four open π portions 51 are required to correspond to four (10) light-emitting modes φ group 3, respectively. Thus, each of the LE:D light-emitting modules 3 is surrounded by each of the openings 5. The top surface of the opening portion 51 and the heat sink seat! The surface is left with a difference to form an embedding groove 511' and the inner wall surface of each opening portion 51 can be further mounted with at least a reflection cover 6' for adding a reflection or light mixing effect of the county line, and the lens 7 is Embedded in the embedding groove 511. When the WD light-emitting module 3 emits light, the direct light emitted by the WD light-emitting module 3 is directly projected, and the non-straight light is reflected through the inner wall surface of the opening portion 51, so that the light overlaps and overlaps in a specific empty range, thereby improving the light-emitting brightness and Light uniformity to produce a bright and soft light source. • Referring to the third figure, a first embodiment of the illumination device of the present invention having a heat sink and a multilayer array type light emitting diode module. The invention can be applied to various lamp sets or lighting fixtures. The third figure is an example of a height-adjustable reading lamp. One side of the heat sink 1 can be provided with a coupling hole (not shown). The coupling hole can be coupled to one end of the bent lamp post 1〇1. The other end of the lamp post 101 is assembled with the lamp holder 103, so that the height can be adjusted according to the user's needs. In addition, the thermal energy generated by the LED lighting module 3 is first absorbed by the heat sink 1, and then the air flowing through the heat dissipation through hole 13 takes away the heat energy. ^ [S3 6 201207304 Air convection through the environmental towel _ direct heat dissipation The way is not only very secret and saves (four) cost 'to reduce the impact of the hardest impact to the minimum conditions, LED can rely on the electronic components of group 3 excellent performance, suitable for long-term reading. Referring to the fourth embodiment, a second embodiment of the lighting device of the present invention having a heat sink and a money array type light emitting diode module. The fourth figure is an example of an adjustable angle table lamp. The reverse side of the heat sink 1 is assembled with the end of the adjustable flange 310, and a gate type is additionally provided on the same surface. The other end of the bendable adjustment member 310 is coupled to the end of the L-shaped light rod 330. The other end of the l-type light rod 33 is mounted on the base 340 so as to be passed through the handle 32 〇. The angle of light can be easily adjusted. From the top to lie down again: the lack of proof, this day is often suitable as a lighting source for various lighting groups, even the auxiliary light source of various electronic devices, and the array of light modules 3 and with reflector 6 provides multi-channel optical effect, which can effectively control the brightness and chromaticity of the light. Referring to the fifth drawing, a perspective view of another embodiment of the lighting device of the present invention having a heat sink and a multilayer array type light emitting diode module is shown. The present invention may comprise a plurality of briquettes 1 and two domains 4, 8 - each of the heat sinks 1 is a cube - the system is generally a trapezoid or other suitable shape of the cube 'the heat sinks i are used to form a polygon The columnar structure, as shown in FIG. 5, the heat sinks 1 are used in four numbers, and the rows are arranged in a quadrangular column structure, and each of the heat sinks 1 has an upper end surface 111 and a lower end surface 113. The upper end surface 111 and the lower end surface 113 have at least a keyhole iLIA. It is to be noted that the shape and number of the above-mentioned heat sinks are determined according to actual needs, and are merely illustrative of the examples and are not intended to limit the scope of the present invention. The two holding pieces 8 of the mountain are respectively locked on the heat sinks i == by the 7 vertical fastening of the heat sinks!, wherein each - solid ==::, the two _:::=: =
母一散熱座1的面向外面之平面視為—出絲其形 =光槽17’該出光槽17係概呈—_狀或其他適當形狀, 該出光槽17較佳地可設置於該散熱座丨t央部份,其令 光槽17頂面與該散熱座1出光面留有-段差以形成二嵌^槽 17卜其中該散熱座丨於該出光槽17周圍設置有複數個散^ 通孔13 ’其中該散熱座丨於該出光槽17周圍設置有複數個、 散熱通孔13,該等散熱通孔13係至少貫穿於該散熱座i之 垂直方向及水平方向’於垂直方向及水平方向之該等散熱通 孔13還可相互連通。其中,上述之該等散熱通孔13亦可相 互斜向交錯設置並可相互連通。 該出光槽17底部上係安裝至少一 led發光模組3,該等 LED發光模組3係受電源驅動而發光,其中每一出光槽η之 内壁面上可分別安裝至少一反射罩6,用以加強光線之反射 或混光效果。該透鏡7係係嵌合於該嵌置槽171之中。 參閱第六圖’本發明之另一使用狀態之實施例示意 圖。其中本發明可應用各種燈具上’其中下文所引用的 桌上型立燈只是說明用的實例而已,並非用以限定本發 明的範圍’參閱前文所述内容,其中該散熱座1上方的 固持片8可再與上立桿200底端相組接,上立桿200的 201207304 頂端則組接有燈罩21Q,其中 片 8= 街接物___,爾桿 置於下立桿23〇之頂部中, 底。卩再鎖 燈座240上。 轉23G的底部則固設於 當該等LED發光模組3受電源驅動發光時,則形成 360度全向式的發光效果,實際上可依據不同應用需求或 使用目的來調整散熱座1及其LED發光模組3之數量, 以因應各種應用需求。 以上所述者僅為用以解釋本發明之較佳實施例,並非企 圖據以對本發明做任何形式上之限制,是以,凡有在相同之 發明精神下所作有關本發明之任何修飾或變更,皆仍應包括 在本發明意圖保護之範疇。 201207304 【圖式簡單說明】 第=圖為本發明之兼具散熱座及多層鱗咖發光二極 體模組之照明襞置之分解示意圖。 第^圖為本發明之兼具散熱座及多層式陣列型發光二極 體模組之照明裝置之組合示意圖。 第三圖為本發明之兼具散熱座及多層式陣列型發光二極 體模組之照明裝置之第一實施例。 第四圖為本發明之兼具散熱座及多層式陣列型發光二極 • 體模組之照明裝置之第二實施例。 第五圖為本發明之兼具散熱座及多層式陣列型發光 二極體模組之照明裝置之另一使用狀態之立體示意圖。 第六圖為本發明之另一使用狀態之實施例示意圖。 【主要元件符號說明】 1散熱座 11容置槽 • 13散熱通孔 17出光槽 171'511嵌置槽 3 LED發光模組 5嵌合板 51開口部 6反射罩 7透鏡 8固持片 81開孔 201207304 111 上端面 111a 鎖孔 113 下端面 101 燈桿 103、 240 、 340 200 上立桿 210 燈罩 220 銜接桿 230 下立桿 310 調整件 320 手把 330 L型燈桿 燈座 ί S3 11The outwardly facing surface of the female heat sink 1 is regarded as a wire shape = light groove 17'. The light exit groove 17 is generally shaped like a shape or other suitable shape, and the light exit groove 17 is preferably disposed on the heat sink. The central portion of the light groove 17 and the light-emitting surface of the heat-dissipating block 1 are left with a --segment difference to form a second recessed groove 17 , wherein the heat-dissipating block is provided with a plurality of radiating holes around the light-emitting groove 17 The hole 13 ′ is disposed in the periphery of the light-emitting groove 17 and has a plurality of heat-dissipating through holes 13 extending through at least the vertical direction and the horizontal direction of the heat-dissipating block i in a vertical direction and a horizontal direction. The heat dissipation through holes 13 in the direction may also communicate with each other. The above-mentioned heat dissipation through holes 13 may also be diagonally staggered and connected to each other. At least one LED light-emitting module 3 is mounted on the bottom of the light-emitting slot 17, and the LED light-emitting modules 3 are driven by the power source to emit light, and at least one reflective cover 6 can be respectively mounted on the inner wall surface of each light-emitting groove η. To enhance the reflection or blending effect of light. The lens 7 is fitted into the fitting groove 171. Referring to the sixth figure, a schematic view of an embodiment of another use state of the present invention. Wherein the invention can be applied to various luminaires, wherein the table-top standing lamps cited hereinafter are merely illustrative examples and are not intended to limit the scope of the invention. Referring to the foregoing, the retaining sheet above the heat sink 1 8 can be combined with the bottom end of the upper pole 200, and the top of the 201207304 of the upper pole 200 is connected with a lampshade 21Q, wherein the piece 8 = street ___, the pole is placed in the top of the lower pole 23 〇 , bottom.卩 Relock the lamp holder 240. The bottom of the 23G is fixed when the LED lighting module 3 is driven by the power source to form a 360-degree omnidirectional illumination effect. In fact, the heat sink 1 can be adjusted according to different application requirements or purposes. The number of LED lighting modules 3 is available to meet the needs of various applications. The above is only a preferred embodiment for explaining the present invention, and is not intended to limit the present invention in any way, and any modifications or alterations to the present invention made in the spirit of the same invention. All should still be included in the scope of the intention of the present invention. 201207304 [Simple description of the diagram] The following figure is an exploded view of the illumination device of the present invention having both a heat sink and a multi-layer scale coffee light emitting diode module. The figure is a schematic diagram of the combination of the illumination device of the present invention having a heat sink and a multilayer array type light emitting diode module. The third embodiment is a first embodiment of the lighting device of the present invention having a heat sink and a multilayer array type light emitting diode module. The fourth figure is a second embodiment of the lighting device of the present invention having both a heat sink and a multi-layer array type light emitting diode. The fifth figure is a perspective view of another use state of the illumination device of the present invention having a heat sink and a multi-layer array type LED module. Figure 6 is a schematic view showing an embodiment of another use state of the present invention. [Main component symbol description] 1 heat sink 11 accommodating groove • 13 heat dissipation through hole 17 light exit groove 171'511 embedded groove 3 LED light emitting module 5 fitting plate 51 opening portion 6 reflective cover 7 lens 8 holding piece 81 opening 201207304 111 Upper end face 111a Keyhole 113 Lower end face 101 Light pole 103, 240, 340 200 Upper pole 210 Lampshade 220 Connecting rod 230 Lower pole 310 Adjusting element 320 Handle 330 L-type pole holder ί S3 11