M363551 八、創作說明: 【創作所屬之技術領域】 本創作是有關於一種照明裝置,且特別是有關於 一種可骏設於機械加工機台上之發光二極體照明裝 置。 【先前技術】M363551 VIII. Creation Description: [Technical Field of Creation] This creation is about a lighting device, and in particular, a lighting diode lighting device that can be placed on a machining machine. [Prior Art]
一般來說,在機械加工機台的刀具加工位置上, 通常都會裝設照明燈具以利於進行加工。這些裝設於 加工機台上的照明燈具’傳統多以燈管或燈泡作為發 光光源,但由於傳統式的燈管或燈泡具有升溫快且耗 電量高的缺失,再加上如螢光燈、氖氣燈及石英燈等 燈具在廢棄後會導致環保方面的問題,因此近年來便 發展出以發光一極體(Light Emitting Diode, LED)作為 工作燈之發光光源的技術手段。 雖然發光二極體具有耗電量低、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= 體其所發出亮度與傳統式的燈泡或燈管相較^下:猶 嫌不足’因此目前均是採用高功率的發光二極體來作 為照明,源。然而,高功率的發光二極體雖然可提供 免度較尚的統,但其在持續發亮—段時間後會因溫 發光效率。由此可知,良好的散熱機: 疋利用W力率發光二極體作為發光光源之裝置所 或缺的。 機制佳的發光二 關人員所關注的 因此,如何研發出高亮度且散熱 極體照明裝置,實為此技術領域之相' 6 M363551 重點之一。 【創作内容】 有馨於以往裝設於加工機台上的照明燈具均無法 兼顧高亮度及良好之散熱__,本創作遂揭露- 種照明裝置,其是以發光二極體作為發絲源,並利 用散熱性麵基絲承餅光二鋪,_能夠在具 有高亮度之特性的㈣’亦可因其良好的散熱性而增 長使用舞命。 本創作提供一種照明裝置,包括散熱基座、第一 隔板、至少一發光二極體光源模組、電源模組、光學 膜片、透光板、一護蓋以及防水條。其中,散熱基座 具有容置槽、頂面以及至少一散熱面,該散熱面是位 於該容置槽外,該頂面則具有暴露出該容置槽的開 口。第一隔板是插設於該容置槽内而在該容置槽内隔 出並列的第一容置空間與第二容置空間,且第一隔板 具有一連通孔。發光二極體光源模組是配置於該第二 谷置空間内並接觸於該散熱基座,電源模組則是配置 於第一容置空間内,並透過第一隔板的連通孔而與發 光二極體光源模組電性連接。 承上述’透光板是鎖固於散熱基座的頂面上。該 些護蓋是分別鎖固於散熱基座的兩端,而與透光板將 电源模組及發光二極體光源模組分別封於第一容置空 間與第二容置空間内。該些護蓋至少其中之一具有一 穿孔,而電源模組即是透過該穿孔與外部供電裝置電 性連接。 7 M363551 本創作提供一種照明裝置,包括散熱基座、第一 隔板、至少一發光二極體光源模組、電源模組、光學 膜片透光板、一§蒦蓋以及防水條。其中,散熱基座 具有f置槽、頂面以及至少一散熱面,該散熱面是位 於該容置槽外’該頂面則具有暴露出該容置槽的開 口。第一隔板是插設於該容置槽内而在該容置槽内隔 出並列的第一容置空間與第二容置空間,且第一隔板 具有一連通孔。發光二極體光源模組是配置於該第二 容置空,内並接觸於該散熱基座,電源模組則是配^ 於第-容置空間内,並透過第一隔板的連通孔而與發 光二極體光源模組電性連接。 承上述’光學膜片是配置於發光二極體光源模組 亡了,光板則是鎖固於散熱基座的頂面上。該些護 蓋疋刀別鎖固於政熱基座的兩端,而與透光板將電源 模組及發光二極體統模組分韻於第-容置空間與 第二容置^間内。該些護蓋至少其中之—具有一穿 孔而电源模組即是透過該穿孔與外部供電裝置電性 連接。 g本創作提供一種照明裝置,包括散熱基座、第-隔板至發光二極體光源模組 '電源模組、光學 ,片二透^板、二護蓋以及防水條。其中,散熱基座 二f谷置槽、頂面以及至少—散熱面,該散熱面是位 ^ °亥谷置槽外’該頂㈣具有沿該容置槽延伸的第-以及暴路出該容置槽的開σ。第—隔板是插設於 4置槽内而在該容置槽内隔出並列的第一容置空間 M363551 與第二容置空間’且第-隔板具有—連通孔^二 極體光源輪是配置於該第二容置㈣㈣接^於; 散熱基座,電源模組則是配置於第一容置空間内, 透過第-隔板的連通孔而與發光二極體切模組電= 連接。 承上述,光學膜片是配置於發光二極體光源模組 ^方,透光板則是鎖固於散熱基座的頂面上。該些 ^是分別鎖HI於散熱基座的兩端,而與透光板將電源 模組及發光二極體光源模組分別封於第一容置空間與 第二容置㈣内。各職蓋於與概綠雜觸的^ 面上分=具有環繞該容置槽之一端的一第二嵌槽,且 為U至少其中之—具有—穿孔’而電源模組即是 透過該穿孔與外部供電裝置電性連接。防水條具有— 本體部與二延伸部,該麵料是分別連接於該本體 4之兩端’且_本體部嵌置於該散熱基座之該第一嵌 槽内’ _麵伸部分職置於該些護蓋之該 ς 槽内。 一奴 、,本創作所揭露之照明裝置如上,與先前技術之間 的至異在於本創作是利用發光二極體來作為發光先 源並以具有至少一散熱面的散熱基座來承載發光二 極體光源模組,以使發光二極體晶片在發出光線時所 產生的熱能可以快速地散逸至照明裝置外。透過上述 的技術手#又,本創作之照明裝置可以同時具有高亮 度低耗電量、發光效率佳及使用壽命長的優點。 【實施方式】 M363551 以下將配合圖式及實施例來詳細說明本創作之實 施方式,藉此對本創作如何應用技術手段來解決技術 問題並達成技術功效的實現過程能充分理解並據以實 施。 「第1圖」繪示為本創作之照明裝置的立體分解 示思圖,「第2圖」則繪示為本創作之照明裝置的散 熱基座的側視圖。請同時參照「第丨圖」與「第2圖」, 照明裝置100包括散熱基座110、第一隔板12〇、至少 一發光二極體光源模組13〇、電源模組14〇、透光板 160、護蓋170a以及護蓋i70b。其中,散熱基座u〇 例如是以鋁擠型(Aluminum Extrusion)的方式製作而 成,並具有容置槽112、頂面114以及至少一散熱面 116。本實施例之散熱基座11〇例如是具有三面散熱面 116,而這些散熱面116均位於容置槽112外。具體來 η兒這些政熱面116可以是散熱基座11〇兩侧的外表 面及底面,且這些散熱面116可以呈鰭片狀,以增加 散熱基座110的散熱面積。 承上所述,散熱基座110之頂面114具有暴露出 谷置槽112的開口 113。如「第3圖」所示,在組裝照 明裝置100時,第一隔板12〇可以從頂面114的開口 113插設至容置槽112内,以於容置槽112内隔出並列 的第一容置空間115與第二容置空間117。 除此之外,如「第5圖」及「第6圖」所示,本 創作之照明裝置在第二實施例中還可以包括有第二隔 板125,其可以大致平行於第一隔板12〇的方向插設於 M363551 容置槽112内,而與第一隔板120在容置槽内隔出第 谷置二間115、第二容置空間Π7以及第三容置空間 U9。其中,第二容置空間117是位於第一容置空間ιι5 與第三容置空間119之間。值得一提的是,本實施例 之第—容置空間115與第三容置空間119在幾何上例 如是對稱於彼此。 請再次參照「第1圖」與「第2圖」,發光二極 體光源模組130是配置於第二容置空間117内並接觸 於散熱基座110’電源模組140則是配置於第一容置空 間115内,並透過第一隔板12〇之連通孔122而與發 光二極體光源模組130電性連接。其中,電源模組14〇 例如是變壓器。 需要注意的是,雖然「第丨圖」僅繪示出單一發 光二極體光源模組130,但其並非用來限定本創作之照 明裴置中的發光二極體光源模組數量。熟習此技藝者 可以依據實務上的需求來選擇配置於第二容置空間 117内之發光二極體光源模組13〇的數量,惟其仍屬於 本創作所欲保護之範鳴。 承上述,發光二極體光源模組130包括電路板132 以及多個發光二極體封裝結構134,且這些發光二極體 封裝結構134例如是以陣列的方式配置於電路板132 上。進一步來說,如「第4圖」所示,電路板132具 有多個散熱孔133,且在各發光二極體封裝結構134 中,發光二極體晶片135是配置於散熱塊137上,且 各發光二極體封裝結構134的散熱塊137均是穿設於 M363551 電路板132的散熱孔133内。由此可知,發光二極體 晶片135在發光時所產生的熱能可直接經由散熱塊 137傳導至電路板132,再經由電路板132傳導至散熱 基座110’以藉由散熱基座110底部的散熱面116快速 將熱月b政逸,進而能夠避免發生在照明裝置1 〇〇内部 累積熱能的情況。 5月參照「第1圖」’本實施例之照明裝置1〇〇更 包括遮板145,其中遮板145是配置於電源模組14〇 上方,並固疋於第一容置空間115内。以本實施例來 說,遮板145可以是彎折成门字形的鋁板,因此當遮 板H5被置入第一容置空間115時,遮板145會略向 散熱基座110的兩侧撐開而卡固於第一容置空間115 内。 另一方面’請參照「第5圖」,第二實施例中的 照明裝置200除了遮板145之外,更可以包括有遮板 146 ’其是配置於透光板160與第三容置空間119之 間’並固定於第三容置空間119内。其中,遮板H6 的材質、形狀及特性均與遮板145相同或相似,此處 不再贅述。 如「第1圖」所示,透光板160是鎖固於散熱基 座1的頂面114上。發光二極體光源模組130所發 出的光線即是透過透光板160而出射,以作為照明用 之光線。值得一提的是,照明裝置100更可以包括光 學膜片150,其是配置於發光二極體光源模組130上 方。在本實施例中,光學膜片150例如是抗炫光片, 12 M363551 以避免發光二極體光源模組130所發出的光線在射出 透光板160後產生疊影的現象。 另外,由於本實施例之透光板160是透過固定件 190而鎖固於散熱基座11〇的頂面114上,因此透光板 160與散熱基座110的頂面114分別具有相對應的固定 孔192a與固定孔192b,固定件19〇即是依序穿設於固 定孔192a與固定孔192b中,而將透光板16〇鎖固於 放熱基座110的頂面114上。其中,固定件190可以 是螺絲、鉚釘或其他相似的固定件。 政熱基座110的兩端則是分別鎖固有護蓋17〇3與 護蓋170b,以便於將電源模組14〇及發光二極體光源 模組130分別封於第一容置空間ns與第二容置空間 117内。其中,本實施例之護蓋17〇a與護蓋17〇b是以 嵌合的方式而接合在散熱基座11〇的兩端,並以螺絲、 鉚釘或其他相似的固定件鎖固於散熱基座u〇上。 此外’鄰近第一容置空間U5的護蓋170a具有一 穿孔174 ’配置於第一容置空間115内的電源模組14〇 即是透過穿孔174與外部供電裝置(圖未示)電性連 接。而且,護蓋170a與護蓋170b分別具有垂直延伸 部176a與垂直延伸部176b,且垂直延伸部n6a具有 定位槽177a ’垂直延伸部176b則具有定位槽n7b。 照明裝置1〇〇即是透過定位槽177a與定位槽177b而 裝設並定位於機械加工機台(圖未示)上,以作為機 台進行加工時的照明燈具。 然而,本創作並不限定護蓋17〇a與護蓋170b與 13 M363551 散熱基座110的接合方式。在本創作的第三實施例中, 如「第7圖」所示,護蓋170a與護蓋17〇b也可以是 呈平板狀,而直接以螺絲、鉚釘或其他相似的固定件 鎖固於散熱基座110上。此外,具有「第7圖」所示 之護蓋170a與護蓋170b的照明裝置則可以透過另外 的夾具裝設於機械加工機台上。 請再次參照「第1圖」,特別的是,本實施例之 照明裝置100更包括有防水條180’用以防止水氣滲入 容置槽112内,以避免發光二極體光源模組13〇因水 氣滲入而損壞。進一步來說,散熱基座11〇之頂面114 具有沿容置槽112延伸的第一喪槽,而護蓋 與護蓋170b於與散熱基座11〇接觸的表面上則分別具 有環繞容置槽112之一端的第二嵌槽172。這些第一嵌 槽118與第二嵌槽172即是用以供防水條18〇嵌置於 其中,下文將詳述之。 詳細來說,防水條180具有本體部182與延伸部 184,且延伸部184是分別連接於本體部182之兩端。 其中,本體部182是嵌置於散熱基座11〇之頂面114 的第-嵌槽118内,而本體部182兩端的延伸部184 則是分別嵌置於護蓋170a與護蓋170b的第二嵌槽172 内。由此可知,本創作之照明裝置1〇〇可藉由防水條 180有效地防止水氣從外部滲入照明裝置1〇〇内,以避 免發光二極體光源模組130遭受損害。 綜上所述,本創作之照明裝置是利用發光二極體 來作為發光光源,並以具有至少—散熱面的散熱基座 14 M363551 &承載發光二極體光源模組,以使發光二極體晶片在 &出光線時所產生的熱能可以快速地散逸至照明褒置 β ° H此’本創作之照明裝置可關時具有高亮度、 低耗電里、發光效率佳及使用壽命長的優點。 …雖然本創作所揭露之實施方式如上 ,惟所述之内 ♦並非用以直接限定本創作之專利保護範圍。任何本 創作所屬技術領域巾具有通常知識者,在不脫離本創 作所揭露之精神和範圍的前提下,可以在實施的形式 上及細節上作些許之更動。本創作之專利保護範圍, 仍須以所附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖為本創作之照明裝置在第一實施例中的立 體分解示意圖。 第2圖為本創作之照明裝置的散熱基座之側視圖。 第3圖為本創作之照明裝置在第一實施例中的隔 板組裝於散熱基座上的立體示意圖。 第4圖為本創作之照明裝置的部分剖面示意圖。 第5圖為本創作之照明裝置在第二實施例中的立 體分解示意圖。 第6圖為本創作之照明裝置在第二實施例中的隔 板組裝於散熱基座上的立體示意圖。 第7圖為本創作之照明裝置在第三實施例中之護 盖及散熱基座的立體示意圖。 【主要元件符號說明】 !〇〇 照明裝置 15 M363551 110 散熱基座 112 容置槽 113 開口 114 頂面 115 第一容置空間 116 散熱面 117 第二容置空間 118 第一嵌槽 119 第三容置空間 120 第一隔板 122 連通孔 125 弟二隔板 130 發光二極體光源模組 132 電路板 133 散熱孔 134 發光二極體封裝結構 135 發光二極體晶片 137 散熱塊 140 電源模組 145 遮板 146 遮板 150 光學膜片 160 透光板 170a 護蓋 170b 護蓋In general, lighting fixtures are usually installed at the tool processing position of the machining table to facilitate processing. These lighting fixtures installed on the processing machine 'traditionally use lamps or bulbs as the light source, but the traditional lamps or bulbs have the disadvantage of fast heating and high power consumption, plus fluorescent lamps. Lamps such as xenon lamps and quartz lamps can cause environmental problems after being discarded. Therefore, in recent years, a light-emitting diode (LED) has been developed as a light source of a work light. Although the light-emitting diode has the advantages of low power consumption, long component life, no need for warm-up time and fast response speed, the general light-emitting body has a brightness similar to that of a conventional light bulb or a light bulb: It’s still not enough. So at present, high-power LEDs are used as the source of illumination. However, although the high-power LEDs can provide a more convenient system, they will be luminous due to the illuminating efficiency after a continuous period of time. From this, it can be seen that a good heat dissipator: 疋 is not necessary for a device using a W-rate light-emitting diode as a light-emitting source. Therefore, how to develop a high-brightness and heat-dissipating body lighting device is one of the key points of the technical field of the 6 M363551. [Creation Content] The lighting fixtures that have been installed on the processing machine in the past cannot meet the high brightness and good heat dissipation __, this creation reveals a kind of lighting device, which uses the light emitting diode as the hair source. And the use of heat-dissipating surface-based wire-bearing cake light two shop, _ can be used in high-brightness characteristics (four) 'can also be used for its good heat dissipation and use the dance. The present invention provides a lighting device comprising a heat sink base, a first partition, at least one light emitting diode light source module, a power module, an optical film, a light transmissive plate, a cover and a waterproof strip. The heat dissipation base has a receiving groove, a top surface and at least one heat dissipating surface. The heat dissipating surface is located outside the receiving groove, and the top surface has an opening exposing the receiving groove. The first partition plate is a first accommodating space and a second accommodating space which are inserted into the accommodating groove and are juxtaposed in the accommodating groove, and the first baffle has a communication hole. The light-emitting diode light source module is disposed in the second valley space and is in contact with the heat dissipation base. The power module is disposed in the first housing space and transmits through the communication hole of the first partition plate. The light emitting diode light source module is electrically connected. The above-mentioned light-transmitting plate is locked on the top surface of the heat-dissipating base. The cover is respectively fixed to the two ends of the heat dissipation base, and the power module and the light-emitting diode light source module are respectively sealed in the first accommodation space and the second accommodation space. At least one of the covers has a perforation, and the power module is electrically connected to the external power supply device through the through hole. 7 M363551 The present invention provides a lighting device comprising a heat sink base, a first partition, at least one light emitting diode light source module, a power module, an optical diaphragm light transmissive plate, a 蒦 cover and a waterproof strip. The heat dissipation base has a groove for the f, a top surface and at least one heat dissipation surface, and the heat dissipation surface is located outside the accommodating groove. The top surface has an opening for exposing the accommodating groove. The first partition plate is a first accommodating space and a second accommodating space which are inserted into the accommodating groove and are juxtaposed in the accommodating groove, and the first baffle has a communication hole. The light-emitting diode light source module is disposed in the second receiving space and is in contact with the heat-dissipating base, and the power module is disposed in the first-accommodating space and communicates through the connecting hole of the first partition And electrically connected with the light emitting diode light source module. The above optical film is disposed in the light-emitting diode light source module, and the light plate is locked on the top surface of the heat dissipation base. The cover files are not locked at the two ends of the political heat base, and the power module and the light-emitting diode module are combined with the light-transmitting plate in the first-accommodating space and the second housing. . At least one of the covers has a through hole, and the power module is electrically connected to the external power supply device through the through hole. g This creation provides a lighting device, including a heat sink base, a first-to-separator to a light-emitting diode light source module, a power module, an optical, a two-panel, a second cover, and a waterproof strip. Wherein, the heat dissipation base has two grooves, a top surface, and at least a heat dissipating surface, the heat dissipating surface is located outside the trough; the top (four) has a first section extending along the receiving groove - and the violent road exits The opening σ of the receiving groove. The first partition plate is a first accommodating space M363551 and a second accommodating space ′ which are inserted into the four slots and are juxtaposed in the accommodating groove, and the first partition plate has a communication hole and a diode light source. The wheel is disposed in the second receiving (four) (four) connection; the heat sink base, the power module is disposed in the first receiving space, and is electrically connected to the light emitting diode cutting module through the communication hole of the first partition plate = connection. According to the above, the optical film is disposed on the light emitting diode light source module, and the light transmitting plate is locked on the top surface of the heat dissipation base. The two are respectively locked to the HI at the two ends of the heat dissipation base, and the power module and the light-emitting diode light source module are respectively sealed in the first accommodating space and the second accommodating (four) with the light-transmitting plate. Each of the caps on the surface of the green touch has a second recess surrounding one end of the receiving slot, and at least one of the U has a through hole and the power module passes through the through hole It is electrically connected to an external power supply unit. The waterproof strip has a body portion and two extension portions, the fabric is respectively connected to the two ends of the body 4 and the body portion is embedded in the first recessed groove of the heat dissipation base. The cover is in the groove. A slave, the lighting device disclosed in the present invention is as above, and the prior art is different in that the present invention utilizes a light-emitting diode as a light source and carries a light-emitting base with a heat-dissipating base having at least one heat-dissipating surface. The polar body light source module enables the heat generated by the light emitting diode chip to emit light to quickly dissipate outside the lighting device. Through the above-mentioned technical hand #, the lighting device of the present invention can simultaneously have the advantages of high brightness, low power consumption, good luminous efficiency and long service life. [Embodiment] M363551 The implementation of the present invention will be described in detail below with reference to the drawings and the embodiments, thereby fully understanding and implementing the implementation process of how to apply the technical means to solve technical problems and achieve technical effects. Fig. 1 is a perspective exploded view of the lighting device of the present invention, and Fig. 2 is a side view showing the heat sink of the lighting device of the present invention. Please refer to both the "figure map" and the "second diagram". The illumination device 100 includes a heat dissipation base 110, a first spacer 12, at least one light emitting diode light source module 13A, and a power module 14 The light plate 160, the cover 170a, and the cover i70b. The heat dissipation base u is formed, for example, by an aluminum extrusion type, and has a receiving groove 112, a top surface 114, and at least one heat dissipation surface 116. The heat dissipation pedestal 11 of the present embodiment has, for example, a three-sided heat dissipation surface 116, and the heat dissipation surfaces 116 are located outside the accommodating groove 112. Specifically, the hot surface 116 may be an outer surface and a bottom surface of the heat dissipation base 11 , and the heat dissipation surfaces 116 may be fin-shaped to increase the heat dissipation area of the heat dissipation base 110 . As described above, the top surface 114 of the heat dissipation base 110 has an opening 113 that exposes the valley groove 112. As shown in FIG. 3, when the illuminating device 100 is assembled, the first partition 12 〇 can be inserted into the accommodating groove 112 from the opening 113 of the top surface 114 to be juxtaposed in the accommodating groove 112. The first accommodating space 115 and the second accommodating space 117. In addition, as shown in "figure 5" and "figure 6", the lighting device of the present invention may further include a second partition 125 which may be substantially parallel to the first partition in the second embodiment. The 12 〇 direction is inserted into the M363551 accommodating groove 112, and the first partition plate 120 is disposed in the accommodating groove to separate the second space 115, the second accommodating space Π7, and the third accommodating space U9. The second accommodating space 117 is located between the first accommodating space ιι and the third accommodating space 119. It is to be noted that the first accommodating space 115 and the third accommodating space 119 of the embodiment are geometrically symmetrical to each other, for example. Referring again to FIG. 1 and FIG. 2, the LED light source module 130 is disposed in the second housing space 117 and is in contact with the heat dissipation base 110. The power module 140 is disposed in the first The accommodating space 115 is electrically connected to the illuminating diode light source module 130 through the communication hole 122 of the first partition 12 . The power module 14 is, for example, a transformer. It should be noted that although the "figure diagram" only shows the single light-emitting diode light source module 130, it is not intended to limit the number of light-emitting diode light source modules in the illumination device of the present invention. Those skilled in the art can select the number of the LED light source modules 13A disposed in the second accommodating space 117 according to the actual needs, but it still belongs to the fan of the creation of the present invention. In the above, the LED light source module 130 includes a circuit board 132 and a plurality of LED package structures 134, and the LED packages 134 are disposed on the circuit board 132, for example, in an array. Further, as shown in FIG. 4, the circuit board 132 has a plurality of heat dissipation holes 133, and in each of the light emitting diode package structures 134, the light emitting diode chip 135 is disposed on the heat dissipation block 137, and The heat dissipation blocks 137 of each of the LED package structures 134 are disposed in the heat dissipation holes 133 of the M363551 circuit board 132. It can be seen that the thermal energy generated by the LED film 135 during the light emission can be directly transmitted to the circuit board 132 via the heat dissipation block 137, and then transmitted to the heat dissipation base 110 ′ via the circuit board 132 to pass through the bottom of the heat dissipation base 110 . The heat dissipating surface 116 quickly dissipates the heat month b, thereby preventing the accumulation of thermal energy inside the illuminating device 1 . In the case of the illuminating device 1 of the present embodiment, the shutter 145 is disposed above the power module 14 , and is fixed in the first accommodating space 115. In this embodiment, the shutter 145 may be an aluminum plate bent into a gate shape. Therefore, when the shutter H5 is placed in the first receiving space 115, the shutter 145 is slightly extended to the two sides of the heat dissipation base 110. It is opened and locked in the first accommodating space 115. On the other hand, please refer to the "figure 5". In addition to the shutter 145, the illuminating device 200 of the second embodiment may further include a shutter 146' which is disposed on the light-transmitting plate 160 and the third accommodating space. Between 119' is fixed in the third accommodating space 119. The material, shape and characteristics of the shutter H6 are the same as or similar to the shutter 145, and will not be described here. As shown in Fig. 1, the light-transmitting plate 160 is locked to the top surface 114 of the heat-dissipating base 1. The light emitted by the light-emitting diode light source module 130 is transmitted through the light-transmitting plate 160 as light for illumination. It is to be noted that the illuminating device 100 further includes an optical film 150 disposed above the illuminating diode light source module 130. In this embodiment, the optical film 150 is, for example, an anti-glare sheet, 12 M363551 to prevent the light emitted by the LED light source module 130 from being superimposed after being emitted from the light-transmitting plate 160. In addition, since the light-transmitting plate 160 of the embodiment is fixed to the top surface 114 of the heat-dissipating base 11 by the fixing member 190, the light-transmitting plate 160 and the top surface 114 of the heat-dissipating base 110 respectively have corresponding The fixing hole 192a and the fixing hole 192b, the fixing member 19 is sequentially inserted into the fixing hole 192a and the fixing hole 192b, and the light-transmitting plate 16 is locked on the top surface 114 of the heat-releasing base 110. The fixing member 190 may be a screw, a rivet or the like. The two ends of the thermal base 110 are respectively locked with the inner cover 17〇3 and the cover 170b, so as to seal the power module 14〇 and the light-emitting diode light source module 130 in the first receiving space ns and The second accommodation space 117 is inside. The cover 17〇a and the cover 17〇b of the embodiment are joined to the two ends of the heat dissipation base 11〇 in a fitting manner, and are fixed by screws, rivets or other similar fixing members. The base u is on the raft. In addition, the power module 14 disposed in the first accommodating space 115 is electrically connected to an external power supply device (not shown) through the through hole 174. . Moreover, the cover 170a and the cover 170b have a vertical extension 176a and a vertical extension 176b, respectively, and the vertical extension n6a has a positioning groove 177a'. The vertical extension 176b has a positioning groove n7b. The illuminating device 1 is mounted on a machining machine table (not shown) through the positioning groove 177a and the positioning groove 177b, and is used as a lighting device for processing the machine. However, this creation does not limit the manner in which the cover 17A is engaged with the cover 170b and the 13 M363551 heat sink base 110. In the third embodiment of the present invention, as shown in FIG. 7, the cover 170a and the cover 17b may also be in the form of a flat plate, and are directly locked by screws, rivets or other similar fixing members. On the heat sink base 110. Further, the illuminating device having the cover 170a and the cover 170b shown in Fig. 7 can be attached to the machining table through another jig. Please refer to FIG. 1 again. In particular, the illuminating device 100 of the embodiment further includes a waterproof strip 180 ′ for preventing moisture from penetrating into the accommodating groove 112 to avoid the illuminating diode light source module 13 〇 Damaged by moisture infiltration. Further, the top surface 114 of the heat dissipation base 11 has a first slot extending along the receiving slot 112, and the cover and the cover 170b respectively have a surrounding accommodation on the surface contacting the heat sink base 11 A second slot 172 at one end of the slot 112. These first recessed slots 118 and second recessed slots 172 are used to embed the waterproof strip 18 therein, as will be described in more detail below. In detail, the waterproof strip 180 has a body portion 182 and an extension portion 184, and the extension portion 184 is coupled to both ends of the body portion 182, respectively. The main body 182 is embedded in the first recess 114 of the top surface 114 of the heat dissipation base 11 , and the extensions 184 at the two ends of the main body 182 are respectively embedded in the cover 170 a and the cover 170 b . The second slot 172 is inside. Therefore, it can be seen that the illumination device 1 of the present invention can effectively prevent moisture from penetrating into the illumination device 1 from the outside by the waterproof strip 180 to prevent the light-emitting diode light source module 130 from being damaged. In summary, the lighting device of the present invention uses the light-emitting diode as the light-emitting source, and carries the light-emitting diode light source module with the heat-dissipating base 14 M363551 & at least the heat-dissipating surface to make the light-emitting diode The thermal energy generated by the body wafer during & light can be quickly dissipated to the illumination device β ° H. This lighting device can be turned off with high brightness, low power consumption, good luminous efficiency and long service life. advantage. ... although the implementation of the present invention is as described above, it is not intended to directly limit the scope of patent protection of this creation. Any person skilled in the art to which the present invention pertains may have some modifications in the form and details of the implementation without departing from the spirit and scope of the invention. The scope of patent protection of this creation must be determined by the scope of the attached patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic exploded perspective view of the lighting device of the present invention in the first embodiment. Figure 2 is a side view of the heat sink base of the lighting device of the present invention. Fig. 3 is a perspective view showing the assembly of the lighting device of the present invention in the first embodiment assembled on the heat dissipation base. Figure 4 is a partial cross-sectional view of the lighting device of the present invention. Fig. 5 is a schematic exploded perspective view of the lighting device of the present invention in the second embodiment. Fig. 6 is a perspective view showing the assembly of the lighting device of the present invention in a second embodiment assembled on a heat dissipation base. Fig. 7 is a perspective view showing the cover and the heat sink base of the illuminating device of the present invention in the third embodiment. [Main component symbol description] !〇〇Lighting device 15 M363551 110 Heat sink base 112 accommodating groove 113 Opening 114 Top surface 115 First accommodating space 116 Heat radiating surface 117 Second accommodating space 118 First recess 119 Third capacity Space 120 First partition 122 Communication hole 125 Second partition 130 Light-emitting diode light source module 132 Circuit board 133 Heat dissipation hole 134 Light-emitting diode package structure 135 Light-emitting diode chip 137 Heat sink block 140 Power module 145 Shutter 146 Shutter 150 Optical film 160 Translucent plate 170a Cover 170b Cover
16 M363551 第二嵌槽 穿孔 垂直延伸部 垂直延伸部 定位槽 定位槽 防水條 防水條本體部 防水條延伸部 固定件 固定孔 固定孔 1716 M363551 Second slot Perforation Vertical extension Vertical extension Positioning groove Positioning groove Waterproof strip Waterproof strip body Waterproof strip extension Fixing member Fixing hole Fixing hole 17