201011201 九、發明說明 • 【發明所屬之技術領域】 本發明是有關於一種光源模組,且特別是有關於一種發 光二極體(LED)光源模組及其在照明模組上的應用。 【先前技術】 由於無塵室之照明燈具的安裝與維修必須在無塵室 外,例如天化板上方進行,因此目前常見之無塵室照明燈 〇具,通常以單門開啟或雙門開啟的方式來設計燈具,以利燈 具安裝與維修》 清參照第1圖,其係繪示傳統照明燈具之剖面示意圖。 傳統之照明燈具100主要係由燈罩112、數個燈管1〇8、反 射罩110與外蓋106所組成。燈罩112係由框體1〇2與二個 可開啟的門104所組成,其中這兩個門ι〇4樞接在框體ι〇2 背面的相對二側。燈管108設置在框體1〇2與這些門1〇4 所構成之空間中,而反射罩1 1 〇設置在這兩個門i 04之内側 Q面。當這些門104關上時,反射罩110這對應罩覆住燈管 108。外蓋106則設置在框體} 〇6之前側,而與設置在框體 106背側的門104相對。 雖然背面設有門1 〇4的照明燈具丨〇〇有利於無塵室燈具 的安裝與維修’但這樣的設計不僅會增加照明燈具1 〇〇之重 量與厚度,而使照明燈具1〇〇更為笨重,而且會增加製程複 雜度’進而造成成本過高的問題。此外,在具有門104之設 計的照明燈具100中,由於門的開啟設計,通常需將燈管 108之電線加長’因此會增加理線的困難度。 5 201011201 ' 【發明内容】 因此’本發明之目的就是在提供一種發光二極體光源模 組,其發光二極體線性光源係$置在基座4凸狀部的頂面 上,故可縮短發光二極體元件至照明模組之出光面的距離, 進而可增加照明模組之出光效率。 本發明之另一目的是在提供一種發光二極體光源模 組’其基座之凸狀部背面的凹陷部可容置發光二極體光源模 ❹组之散熱模組,因此可縮減其所應用之照明模組的整體厚 度》 本發明之又一目的是在提供一種發光二極體照明模 組,其背面無門扇設計,因此可在照明模組之背面快速安裝 與維修發光二極體光源模組,而相當適用於無塵室,並可簡 化照明模組之製程,更可降低照明模組之製造成本。 本發明之再一目的是在提供一種發光二極體照明模 組其係將發光二極體線性光源與基座整合成光源模組的設 ❹汁,因此可簡化理線,有利於照明模組之組裝。 本發明之再一目的是在提供一種發光二極體照明模 組,其可加掛散熱模組,因此可增加照明模組之照度,更可 延長照明模組之使用壽命。 根據本發明之上述目的,提出一種發光二極體光源模 組,至少包括:一基座具有一凸狀部與一凹陷部,其中凹陷 。卩對應位於凸狀部之背面;以及至少一發光二極體線性光源 -設置在基座之凸狀部的頂面。 根據本發明之目的,提出一種發光二極體照明模組,至 201011201 .少包括·-燈罩’以及至少—發光二極體光源模組設置在燈 罩中,其中發光二極體光源模組至少包括:一基座具有一凸 狀p與凹陷°卩,其中凹陷部對應位於凸狀部之背面;以及 至;一發光二極體線性光源設置在基座之凸狀部的頂面。 【實施方式】 請參照第2 A圖至第2D圖,其係分別繪示依照本發明 較佳實施例的一種發光二極體光源模組之前視圖、後視 ©圖、背側立體示意®、以及前側立體示意、圖。在—示範實施 例中,發光二極體光源模組2〇〇主要包括基座228、與一或 多個發光二極體線性光源2〇2,例如為發光二極體光條。如 第2A圖與第2D圖所示,基座228之前側具有凸狀部2〇8。 另一方面,如第2B圖與第2C圖所示,基座228之背側則 具有凹陷部214,其中凹陷部214位於凸狀部2〇8之背面, 且凹陷部214與凸狀部208相對應。在一實施例中,基座 228更可選擇性地包括外緣部21 〇,其中此外緣部2丨〇圍設 © 在凸狀部208之底邊。發光二極體線性光源202係設置在基 座228之凸狀部208的頂面212上。如第2A圖所示,發光 一極鱧線性光源202主要包括電路板206與數個發光二極體 元件204,其中這些發光二極體元件2〇4線性排列在電路板 206上’且這些發光二極體元件2〇4與電路板2〇6上之預設 電路電性連接。並且’多個發光二極體線性光源2〇2更可組 - 合成均勻之面光源。 當發光二極體光源模組200應用在照明裝置時,由於發 光二極體線性光源202之發光二極體元件204係設置在基座 201011201 228之凸狀部208的頂面212上,因此發光二極體元件204 與照明裝置之出光面的距離較短,而有利於增加照明裝置的 出光效率。 在一實施例中,發光二極體光源模組2〇〇更可依裝置設 計而選擇性地設有啟動器218與發光二極體線性光源2〇2 之電路板206電性連接’且發光二極體元件2〇4透過電路板 206而與啟動器218電性連接。啟動器218 一般係轉換市電 輸入之交流電為發光二極體可以應用之直流電源。啟動器 φ 218可設置在去座228上,其中啟動器218較佳可設置在基 座228之背面’以避免佔用基座228前側的空間,有利於發 光二極體線性光源202之設置’因而啟動器218與發光二極 體元件204較佳係位於基座228之相對二側。啟動器218 更可透過電線220來與外部電源電性連接^ 在一些實施例中,發光二極體光源模組2〇〇可選擇性地 設置至少一散熱模組216,其中散熱模組216設置在基座228 背面之凹陷部216中。散熱模組216之數量可相等於發光二 •極體線性光源202之數量,且這些散熱模組216分別對應設 置在發光二極體線性光源202之背面。然而,依實際裝置設 計’散熱模組2丨6之數量亦可不相等於發光二極體線性光源 202之數量。如第2C圖所示,散熱模組216可例如為散熱 鰭片,且散熱鰭片之高度較佳係實質等於凹陷部214之深 度’亦即整個散熱鰭片較佳係藏設在凹陷部2丨4中。 當發光二極體光源模組200應用在照明裝置中時,由於 散熱模組216係藏設在基座228背面之凹陷部214中,因此 可降低照明裝置之整體厚度。 8 201011201 在一實施例中,發光二極體光源模組200更可選擇性地 •設置一或多個把手222,以利拆裝發光二極體光源模組 200。把手222可設置在基座228之背面,其中把手222之 數量較佳係二個以上,且這兩個把手222較佳係設置在發光 二極體光源模組200之背面的二端,以增加發光二極體光源 模組200之取放的便利性。此外,如第2C圖與第2D圖所 示,發光二極體光源模組200之基座228的外緣部210亦可 選擇性地設置數個卡勾224,以利發光二極體光源模組2〇〇 ❹固 定於其所應用之照明設備的燈罩上。如第2C圖所示,配 合基座228之卡勾224,發光二極體光源模組2〇〇更可選擇 性地設置至少一鎖固元件226穿設於基座228的外緣部 210 ’例如繫留螺絲,以與卡勾224配合來將發光二極體光 滹棋組200固定於其所應用之照明設備的燈罩上。 請參照第3A圖與第3B圖,其係分別繪示依照本發明 一較佳實施例的一種發光二極體照明模組之立韹圖與剖面 圖。在一示範實施例中,發光二極體照明模組3〇〇主要包括 ❹燈罩302、與一或多個如同上述實施例之發光二極趙光源模 組200,其中發光二極體光源模組200設置在燈罩3〇2之 中,如第3A圖與第3B圖所示。在發光二極體照明模組3〇〇 中’燈罩302可設有一或多個破孔306,且發光二極體光源 模組200係設置在破孔306中。因此,燈罩302之破孔306 的數量係對應於發光二極體光源模組200之數量,且燈罩 302之破孔306的尺寸略大於發光二極體光源模組2〇〇之基 座228的凸狀部208的尺寸’以利基座228之凸狀部208 穿設在破孔306中。燈罩302更可配合發光二極體光源模組 9 201011201 200之卡勾224設計,而對應設有數個結合孔3〇8,其中這 些結合孔308之數量與位置對應於發光二極體光源模組200 之卡勾224’且燈罩302之結合孔308的尺寸略大於發光二 極體光源模組200之卡勾224的尺寸,以利發光二極體光源 模組200之卡勾224穿設在結合孔308中。 如第3B圖所示,當發光二極體光源模組2〇〇設置在燈 罩302之破孔306中時,發光二極體光源模組2〇〇之基座 228的凸狀部208穿過破孔3 06而凸設於燈罩302之底面 ❹316,並且基座228的外緣部21〇貼設在燈罩3〇2相對於底 面316之背面314。此外,如第3A圖所示,基座228之外 緣部210的卡勾224對應卡設在燈罩3〇2之結合孔3〇8中。 完成發光二極體光源模組2〇〇在燈罩3〇2之定位後,再利用 基座228之外緣部210中的鎖固元件226,將發光二極體先 源模組固定在料3〇2卜將發光二極體光源模組2〇〇 自燈罩302上拆下時,則可先旋開鎖固元件226,再使卡勾 224順著結合孔3〇8移出’即可將發光二極體光源模組挪 參自燈罩302上卸下。值得注意的一點是,發光二極體照明模 組300亦可利用其他固定方式或固定元件,例如螺絲等鎖固 7G件,來固定與結合發光二極體光源模組2〇〇與燈罩302 ^ 如第3A圓與第3B圖所示,在一實施例中,發光二極 體照明模組細更可選擇性地設置可透光之外蓋304覆蓋在 燈罩302之發光面上’其中此外蓋3〇4完全遮蓋在發光二極 -體光《組200之上方’較佳可例如為具有凸狀表面之擴散 板。如第3A圖所示,發光二極體照明模組3〇〇更具有電 模組318設置在燈罩302之背面的邊緣區,其t外部之電、 10 201011201 源,例如交流電源’可經由電線312而輸入電源模組3i8 中’而電源模組318可透過雷飨丄 处项电綠310而與發光二極體光源模 組200之啟動器218電性連接。 在本示範實施例中,發光二極體照明模組3〇〇之發光二 極體光源模組200可輕易地從燈罩3〇2之背面314取出,且 燈罩302之發光面亦設有外蓋3〇4,而可在進行發光二極體 光源模組之安裝與維修更換時防止燈罩3〇2内部或發光二 極體照明模組300背面之污染物掉落。因此,發光二極體照 ❹月模組300可適用於無塵室,因而發光二極體照明模組3〇〇 可為無塵至發光二極體照明裝置。由於發光二極體照明模 組300無需如傳統技術般藉助於門的設計,即可輕易自發光 一極體照明模組300之背面安裝與卸下發光二極體光源模 組,再加上啟動器218與發光立極髏線性光源2〇2(請一併 參照第2A圖與第2B圖)係採燈板模組化設計,因此不僅可 快速安裝與維修照明模組,並可減輕照明模組之重量與縮減 照明模組之厚度’更可大大地簡化電線之理線。 • 請參照第4A圖,其係繪示依照本發明另一較佳實施例 的一種發光二極體照明模組之裝置示意圖。在發光二極體照 明模組400中’主要包括燈罩4〇2、與一或多個發光二極體 光源模組200a ’其中發光二極體光源模組2〇〇a設置在燈罩 402之中。發光二極體光源模組2〇〇a大致上與發光二極體 光源模組200相同,在一實施例中,二者之差異在於發光二 - 極體光源模組200a並不具有發光二極體光源模組2〇〇之卡 勾224、啟動器218與鎖固元件226,且發光二極體光源模 組200a之基座228的外緣區210之二邊23 0與232設有數 201011201 .個定位凹槽2 3 4或定位凹洞;在另一實施例中,除了上述之 .差異外,發光二極體光源模組200a亦可不具有發光二極體 光源模組200之把手222。 在第4A圖所示之示範實施例中,發光二極體照明模組 400之燈罩402可設有一或多個破孔(未繪示),且發光二極 體光源模組200a係設置在破孔上。因此,燈罩4〇2之破孔 的數量係對應於發光二極體光源模組2〇〇a之數量。燈罩4〇2 更可配合發光一極體光源模組2〇〇a之定位凹槽234的設 ®計,而對應設有數個卡勾410凸出於燈罩402之底面408, 其中这些卡勾410之數量與位置對應於發光二極體光源模 組200a之定位凹槽234,且燈罩4〇2之卡勾41〇的尺寸約 略小於發光二極體光源模組2〇〇a之定位凹槽234的尺寸, 以利燈罩402之卡勾410卡置在基座228的定位凹槽234 中。此外,燈罩402之底面408更可凸設有至少一止回彈片 412,其中止回彈片412設置在發光二極體光源模組2〇〇a 之一側。 〇 當發光二極體光源模組200a設置在燈罩402中時,發 光二極體光源模組200a之基座228的外緣部210貼設在燈 罩402之底面408 ’因此發光二極體光源模組20〇a則凸設 於燈罩402之底面408上。此外,燈罩402之卡勾410對應 卡置在基座228之外緣部210之二邊23 〇與232的定位凹槽 234中。完成發光二極體光源模組200a在燈罩4〇2之底面 408的定位後’再利用燈罩402之底面408上的止回彈片412 抵住基座228之外緣部21〇之一邊23〇,其中外緣部21〇之 二邊230與232位於外緣部21〇之相對二側,因此利用燈罩 12 201011201 402之卡勾410與止回彈片412、以及發光二極體光源模組 200a之定位凹槽234,可將發光二極體光源模組2〇如順利 地固定在燈罩402之底面4〇8,如帛4B圖所示。將發光二 極體光源模組200a自燈罩402上拆下時,則可先壓下燈罩 402之止回彈片412’再將發光二極體光源模組2〇〇a之外緣 部210移除燈罩402之卡勾41〇,即可將發光二極體光源模 組200a自燈罩402上卸下。因此,發光二極體照明模組4〇〇 之發光二極體光源模組200a可輕易地從燈罩4〇2之底面 ❹408取下,亦即可以輕易地從燈罩發光的一側取下發光二極 體光源模組200a。在本示範實施例中,發光二極體照明模 組400可作為日常之照明燈具,例如一般T_Bar燈具。同樣 地’發光一極體照明模組400亦可利用其他固定方式或固定 X*件,例如螺絲等鎖固元件,來固定與結合發光二極體光源 模組200a與燈罩402。 在本示範實施例中,發光二極體照明模組4〇〇更具有啟 動器404,其中此啟動器404例如亦設置在燈罩4〇2之底面 β 4〇8’因此啟動器404與發光二極體光源模組200a之發光二 極體元件204均位於燈罩402之同一侧。啟動器4〇4透過電 線406而與發光二極體光源模組2〇〇a上之發光二極體線性 光源202的電路板206電性連接,再透過電路板2〇6而進一 步與發光二極體元件204電性連接。啟動器4〇4另一端則透 過電線414而與外部電源電性連接。 由上述本發明之實施例可知,本發明之一優點就是因為 本發明之發光一極體光源模組的發光二極體線性光源係設 置在基座之凸狀部的頂面上,因此可縮短發光二極體元件至 13 201011201 照明模組之出光面的距離,進而可增加照明模組之出光效 ' 率〇 由上述本發明之實施例可知,本發明之另一優點就是因 為在本發明之發光二極體光源模組中,基座之凸狀部背面的 凹陷部可容置發光二極體光源模組之散熱模組,因此可縮減 其所應用之照明模組的整體厚度。 由上述本發明之實施例可知,本發明之又一優點就是因 為本發明之發光二極體照明模組的背面無門扇設計,因此可 ®在照明模組之背面快速安裝與維修發光二極體光源模組,而 相當適用於無塵室,並可簡化照明模組之製程,更可降低照 明模組之製造成本。 由上述本發明之實施例可知,本發明之再一優點就是因 為本發明之發光二極體照明模組係將發光二極趙線性光源 與基座整合成光源模組的設計,因此可簡化理線,有利於照 明模組之組裝。 由上述本發明之實施例可知’本發明之再一優點就是因 ® 為本發明之發光二極體照明模組可加掛散熱模組,因此可增 加照明模組之照度’更可延長照明模組之使用壽命。 雖然本發明已以一較佳實施例揭露如上,然其並非用以 限定本發明’任何在此技術領域中具有通常知識者,在不脫 離本發明之精神和範圍内,當可作各種之更動與潤飾,因此 本發明之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖係繪示傳統照明燈具之剖面示意圖。 較佳實施例的一種發光二 較佳實施例的一種發光二 較佳實施例的一種發光二 較佳實施例的一種發光二 t 較佳實施例的一種發光二 較佳實施例的一種發光二 —較佳實施例的一種發光 201011201 第2A圖係繪示依照本發明一 極體光源模組之前視圖。 第2B圖係繪示依照本發明一 極體光源模組之後視圖。 第2C圖係繪示依照本發明一 極體光源模組之背側立體示意圖 第2D圖係繪示依照本發明— 極體光源模組之前側立體示意圖 第3 A圖係繪示依照本發明— 極體照明模組之立體圖。 第3B圖係繪示依照本發明— 極體照明模組之剖面圖。 第4λ圖係緣示依照本發明另 二極體照明模組之裝置示意圖。 第4Β圖係繪·示依照本發明另— 二極體照明模組之上視圖。 較佳實施例的一種發光201011201 IX. INSTRUCTIONS OF THE INVENTION • Technical Field of the Invention The present invention relates to a light source module, and more particularly to a light-emitting diode (LED) light source module and its application to a lighting module. [Prior Art] Since the installation and maintenance of the clean room lighting fixtures must be carried out in a dust-free room, such as above the naturalization board, the common clean room lighting cookware is usually opened with a single door or double door. Ways to design the luminaires for the installation and maintenance of the luminaires. Referring to Figure 1, it is a schematic cross-sectional view of a conventional lighting fixture. The conventional lighting fixture 100 is mainly composed of a lamp cover 112, a plurality of lamps 1〇8, a reflector cover 110 and an outer cover 106. The lamp cover 112 is composed of a frame 1〇2 and two openable doors 104, wherein the two doors 〇4 are pivotally connected to opposite sides of the back of the frame ι2. The bulb 108 is disposed in the space formed by the frame 1〇2 and the doors 1〇4, and the reflector 1 1〇 is disposed on the inner Q face of the two doors i 04. When the doors 104 are closed, the reflector 110 corresponds to the cover to cover the tube 108. The outer cover 106 is disposed on the front side of the frame 〇6 and opposite to the door 104 provided on the back side of the frame 106. Although the lighting fixtures on the back of the door 1 〇 4 are beneficial to the installation and maintenance of the clean room luminaires, 'this design will not only increase the weight and thickness of the lighting fixtures, but also make the lighting fixtures even more It is cumbersome and will increase the complexity of the process', which in turn causes costly problems. In addition, in the lighting fixture 100 having the design of the door 104, it is generally necessary to lengthen the wires of the lamp 108 due to the opening design of the door, thus increasing the difficulty of the cable management. 5 201011201 ' [Invention] Therefore, the object of the present invention is to provide a light-emitting diode light source module, wherein the light-emitting diode linear light source is disposed on the top surface of the convex portion of the base 4, thereby shortening The distance from the light-emitting diode component to the light-emitting surface of the illumination module can further increase the light-emitting efficiency of the illumination module. Another object of the present invention is to provide a light-emitting diode light source module in which the recessed portion on the back surface of the convex portion of the base can accommodate the heat-dissipating module of the light-emitting diode light source module group, thereby reducing the size thereof The overall thickness of the lighting module of the application is another object of the present invention is to provide a light-emitting diode lighting module, which has no door leaf design on the back surface, so that the light-emitting diode light source can be quickly installed and repaired on the back side of the lighting module. The module is quite suitable for the clean room, and can simplify the manufacturing process of the lighting module, and can also reduce the manufacturing cost of the lighting module. A further object of the present invention is to provide a light-emitting diode lighting module which integrates a light-emitting diode linear light source and a base into a light source module, thereby simplifying the cable management and facilitating the lighting module. Assembly. A further object of the present invention is to provide a light-emitting diode lighting module that can be attached with a heat-dissipating module, thereby increasing the illumination of the lighting module and extending the service life of the lighting module. According to the above object of the present invention, a light emitting diode light source module is provided, comprising at least: a base having a convex portion and a concave portion, wherein the recess is formed.卩 corresponds to the back side of the convex portion; and at least one light-emitting diode linear light source is disposed on the top surface of the convex portion of the base. According to the purpose of the present invention, a light-emitting diode lighting module is provided, which is provided in 201011201. The light-emitting diode module and the at least one light-emitting diode light source module are disposed in the light cover, wherein the light-emitting diode light source module includes at least A pedestal has a convex shape p and a depression 卩, wherein the concave portion corresponds to the back surface of the convex portion; and a light-emitting diode linear light source is disposed on a top surface of the convex portion of the pedestal. [Embodiment] Please refer to FIG. 2A to FIG. 2D, which respectively illustrate a front view, a rear view, and a back side stereoscopic diagram of a light-emitting diode light source module according to a preferred embodiment of the present invention. And the front side stereoscopic diagram, figure. In the exemplary embodiment, the light-emitting diode light source module 2 〇〇 mainly includes a susceptor 228 and one or more light-emitting diode linear light sources 2 〇 2, such as light-emitting diode light strips. As shown in Figs. 2A and 2D, the front side of the base 228 has a convex portion 2〇8. On the other hand, as shown in FIGS. 2B and 2C, the back side of the pedestal 228 has a recessed portion 214, wherein the recessed portion 214 is located on the back side of the convex portion 2〇8, and the recessed portion 214 and the convex portion 208 Corresponding. In one embodiment, the base 228 further optionally includes an outer edge portion 21 〇, wherein the outer edge portion 2 丨〇 encloses a bottom edge of the convex portion 208. A light emitting diode linear light source 202 is disposed on the top surface 212 of the convex portion 208 of the base 228. As shown in FIG. 2A, the light-emitting one-pole linear light source 202 mainly includes a circuit board 206 and a plurality of light-emitting diode elements 204, wherein the light-emitting diode elements 2〇4 are linearly arranged on the circuit board 206' and these light-emitting The diode element 2〇4 is electrically connected to a predetermined circuit on the circuit board 2〇6. And 'a plurality of light-emitting diode linear light sources 2 〇 2 can be grouped together - a uniform surface light source is synthesized. When the light emitting diode light source module 200 is applied to the illumination device, since the light emitting diode element 204 of the light emitting diode linear light source 202 is disposed on the top surface 212 of the convex portion 208 of the base 201011201 228, the light is emitted. The distance between the diode element 204 and the light exit surface of the illumination device is short, which is advantageous for increasing the light extraction efficiency of the illumination device. In an embodiment, the LED module 2 is selectively provided with an actuator 218 electrically connected to the circuit board 206 of the LED linear light source 2〇2 and is illuminated. The diode element 2〇4 is electrically connected to the actuator 218 through the circuit board 206. The starter 218 generally converts the mains input AC power to a DC power source to which the light emitting diode can be applied. The actuator φ 218 can be disposed on the pedestal 228, wherein the actuator 218 can preferably be disposed on the back side of the susceptor 228 to avoid occupying the space on the front side of the susceptor 228, facilitating the setting of the illuminating diode linear light source 202. The actuator 218 and the LED component 204 are preferably located on opposite sides of the susceptor 228. The starter 218 is electrically connected to the external power source through the wire 220. In some embodiments, the LED module 2 can selectively provide at least one heat dissipation module 216, wherein the heat dissipation module 216 is disposed. In the recess 216 on the back of the base 228. The number of the heat dissipation modules 216 can be equal to the number of the light-emitting diode linear light sources 202, and the heat dissipation modules 216 are respectively disposed on the back surface of the light-emitting diode linear light source 202. However, depending on the actual device design, the number of heat dissipation modules 2丨6 may not be equal to the number of light-emitting diode linear light sources 202. As shown in FIG. 2C, the heat dissipation module 216 can be, for example, a heat dissipation fin, and the height of the heat dissipation fin is preferably substantially equal to the depth of the recess portion 214, that is, the entire heat dissipation fin is preferably trapped in the recess portion 2.丨4. When the light emitting diode light source module 200 is applied to the lighting device, since the heat dissipation module 216 is housed in the recessed portion 214 on the back surface of the base 228, the overall thickness of the lighting device can be reduced. 8201011201 In an embodiment, the LED light source module 200 further selectively includes one or more handles 222 for disassembling the LED light source module 200. The handle 222 can be disposed on the back of the base 228, wherein the number of the handles 222 is preferably two or more, and the two handles 222 are preferably disposed at the two ends of the back of the LED light source module 200 to increase The convenience of pick-and-place of the light-emitting diode light source module 200. In addition, as shown in FIG. 2C and FIG. 2D, the outer edge portion 210 of the pedestal 228 of the LED light source module 200 can also be selectively provided with a plurality of hooks 224 to facilitate the light emitting diode mode. Group 2 is attached to the lampshade of the lighting device to which it is applied. As shown in FIG. 2C, the LED 224 of the pedestal 228, the LED light source module 2 can be selectively disposed with at least one locking component 226 disposed on the outer edge portion 210 of the pedestal 228. For example, a captive screw is used in conjunction with the hook 224 to secure the light-emitting diode light chess set 200 to the light fixture of the lighting device to which it is applied. Referring to FIGS. 3A and 3B, respectively, a perspective view and a cross-sectional view of a light emitting diode illumination module in accordance with a preferred embodiment of the present invention are shown. In an exemplary embodiment, the LED module 3 〇〇 mainly includes a xenon lamp cover 302 and one or more illuminating dipole illuminating light source modules 200 as in the above embodiment, wherein the illuminating diode light source module 200 is disposed in the lamp cover 3〇2 as shown in FIGS. 3A and 3B. In the LED module 3, the lamp cover 302 can be provided with one or more holes 306, and the LED light source module 200 is disposed in the hole 306. Therefore, the number of the holes 306 of the lamp cover 302 corresponds to the number of the light-emitting diode light source modules 200, and the size of the holes 306 of the lamp cover 302 is slightly larger than the size of the base 228 of the light-emitting diode light source module 2 The size of the convex portion 208 is such that the convex portion 208 of the base 228 is bored in the hole 306. The lampshade 302 is further configured with the hook 224 of the light-emitting diode light source module 9 201011201 200, and correspondingly has a plurality of bonding holes 3 〇 8 , wherein the number and position of the bonding holes 308 correspond to the light-emitting diode light source module The size of the binding hole 308 of the light-emitting diode 302 is slightly larger than the size of the hook 224 of the light-emitting diode light source module 200, so that the hook 224 of the light-emitting diode light source module 200 is disposed in combination. Hole 308. As shown in FIG. 3B, when the light-emitting diode light source module 2 is disposed in the hole 306 of the lamp cover 302, the convex portion 208 of the base 228 of the light-emitting diode light source module 2 is passed through. The hole 306 is protruded from the bottom surface ❹ 316 of the lamp cover 302, and the outer edge portion 21 of the base 228 is attached to the back surface 314 of the lamp cover 3〇2 with respect to the bottom surface 316. Further, as shown in Fig. 3A, the hook 224 of the outer edge portion 210 of the base 228 is correspondingly engaged in the engaging hole 3〇8 of the lamp cover 3〇2. After the position of the light-emitting diode light source module 2 is completed in the lamp cover 3〇2, the locking element 226 in the outer edge portion 210 of the base 228 is used to fix the light-emitting diode precursor module to the material 3 When the illuminating diode light source module 2 is detached from the lamp cover 302, the locking component 226 can be unscrewed first, and then the hook 224 can be removed along the bonding hole 3 〇 8 to be illuminated. The polar body light source module is removed from the lamp cover 302. It is worth noting that the LED module 300 can also be fixed by other fixing methods or fixing components, such as screws, etc., to fix and combine the LED light source module 2 and the lampshade 302 ^ As shown in FIG. 3A and FIG. 3B, in an embodiment, the LED module can be selectively provided with a light-permeable outer cover 304 covering the light-emitting surface of the lamp cover 302. 3〇4 completely covered in the light-emitting diode-body light "above the group 200" may preferably be, for example, a diffuser having a convex surface. As shown in FIG. 3A, the LED module 3 further has an electric module 318 disposed at an edge region of the back of the lamp cover 302, and an external power source, such as an AC power source, can be connected via an electric wire. The power module 318 is electrically connected to the starter 218 of the LED light source module 200 through the Thunder device. In the exemplary embodiment, the LED light source module 200 of the LED module 3 can be easily taken out from the back surface 314 of the lamp cover 3〇2, and the light-emitting surface of the lamp cover 302 is also provided with a cover. 3〇4, the pollutants on the back of the lampshade 3〇2 or the backlight diode module 300 can be prevented from falling during the installation and maintenance replacement of the light-emitting diode light source module. Therefore, the LED module 300 can be applied to a clean room, and thus the LED module 3 can be a dust-free to LED illumination device. Since the LED module 300 does not need to be designed by a conventional technology, the LED module can be easily mounted and removed from the back of the LED module 300, and the LED module is activated. 218 and the illuminating vertical pole linear light source 2〇2 (please refer to the 2A and 2B drawings together) to design the lighting board modularly, so that not only can the lighting module be quickly installed and repaired, but also the lighting module can be lightened. The weight of the group and the thickness of the reduced lighting module can greatly simplify the wiring of the wire. Please refer to FIG. 4A, which is a schematic diagram of an apparatus for a light-emitting diode lighting module according to another preferred embodiment of the present invention. In the light-emitting diode lighting module 400, 'mainly includes a lamp cover 4〇2, and one or more light-emitting diode light source modules 200a', wherein the light-emitting diode light source module 2〇〇a is disposed in the lampshade 402 . The light emitting diode light source module 2〇〇a is substantially the same as the light emitting diode light source module 200. In an embodiment, the difference is that the light emitting diode body light source module 200a does not have a light emitting diode. The body light source module 2 has a hook 224, a starter 218 and a locking component 226, and the two sides 230 and 232 of the outer edge region 210 of the base 228 of the light-emitting diode light source module 200a are provided with the number 201011201. In another embodiment, in addition to the above differences, the LED light source module 200a may not have the handle 222 of the LED light source module 200. In the exemplary embodiment shown in FIG. 4A, the lampshade 402 of the LED lighting module 400 can be provided with one or more holes (not shown), and the LED light source module 200a is disposed in a broken manner. On the hole. Therefore, the number of holes of the lamp cover 4〇2 corresponds to the number of the light-emitting diode light source modules 2〇〇a. The lamp cover 4〇2 can be further matched with the setting groove 234 of the light-emitting one-pole light source module 2〇〇a, and correspondingly, a plurality of hooks 410 are protruded from the bottom surface 408 of the lamp cover 402, wherein the hooks 410 The number and position correspond to the positioning groove 234 of the LED light source module 200a, and the size of the hook 41 of the lamp cover 4〇2 is slightly smaller than the positioning groove 234 of the light emitting diode module 2〇〇a. The size of the hook 410 of the lamp cover 402 is placed in the positioning groove 234 of the base 228. In addition, the bottom surface 408 of the lamp cover 402 is further provided with at least one non-return elastic piece 412, wherein the non-return spring piece 412 is disposed on one side of the light-emitting diode light source module 2〇〇a. When the light emitting diode light source module 200a is disposed in the light cover 402, the outer edge portion 210 of the base 228 of the light emitting diode light source module 200a is attached to the bottom surface 408 of the light cover 402. The group 20〇a is protruded from the bottom surface 408 of the lampshade 402. In addition, the hook 410 of the lamp cover 402 is correspondingly disposed in the positioning groove 234 of the two sides 23 〇 and 232 of the outer edge portion 210 of the base 228. After the positioning of the light-emitting diode light source module 200a on the bottom surface 408 of the lamp cover 4〇2, the non-return spring piece 412 on the bottom surface 408 of the lamp cover 402 is used to abut against one edge 23〇 of the outer edge portion 21 of the base 228. The two sides 230 and 232 of the outer edge portion 21 are located on opposite sides of the outer edge portion 21, so the positioning of the hook 410 and the check elastic piece 412 of the lampshade 12 201011201 402 and the light emitting diode light source module 200a are utilized. The recess 234 can smoothly fix the LED light source module 2 to the bottom surface 4〇8 of the lampshade 402, as shown in FIG. When the light emitting diode light source module 200a is removed from the lamp cover 402, the springback piece 412' of the lamp cover 402 can be pressed first, and then the outer edge portion 210 of the light emitting diode light source module 2A is removed. The light-emitting diode light source module 200a can be detached from the lamp cover 402 by the hook 41 of the lamp cover 402. Therefore, the LED light source module 200a of the LED module can be easily removed from the bottom surface 408 of the lamp cover 4〇2, that is, the light can be easily removed from the side of the lamp cover. The polar body light source module 200a. In the exemplary embodiment, the light-emitting diode lighting module 400 can be used as a daily lighting fixture, such as a general T_Bar fixture. Similarly, the illuminating one-pole illumination module 400 can also be used to fix and combine the illuminating diode light source module 200a and the lampshade 402 by using other fixing means or fixing X* members, such as screws and the like. In the exemplary embodiment, the LED module 4 further includes an actuator 404, wherein the actuator 404 is also disposed on the bottom surface of the lamp cover 4 β 2 〇 8 ′, thus the 404 and the illuminator 2 The light emitting diode elements 204 of the polar body light source module 200a are all located on the same side of the lamp cover 402. The starter 4〇4 is electrically connected to the circuit board 206 of the light-emitting diode linear light source 202 on the light-emitting diode light source module 2〇〇a through the electric wire 406, and further transmitted through the circuit board 2〇6 to further emit light The polar body element 204 is electrically connected. The other end of the starter 4〇4 is electrically connected to an external power source via a wire 414. According to the embodiment of the present invention, an advantage of the present invention is that the light-emitting diode linear light source of the light-emitting diode light source module of the present invention is disposed on the top surface of the convex portion of the base, thereby shortening The distance from the light-emitting diode component to the light-emitting surface of the illumination module of 13 201011201 can further increase the light-emitting efficiency of the illumination module. As can be seen from the above embodiments of the present invention, another advantage of the present invention is that it is in the present invention. In the light-emitting diode light source module, the recessed portion on the back surface of the convex portion of the base can accommodate the heat-dissipating module of the light-emitting diode light source module, thereby reducing the overall thickness of the lighting module to which it is applied. According to the embodiment of the present invention, another advantage of the present invention is that because the back surface of the LED module of the present invention has no door leaf design, the LED can be quickly installed and repaired on the back side of the lighting module. The light source module is quite suitable for a clean room, and can simplify the manufacturing process of the lighting module, and can also reduce the manufacturing cost of the lighting module. According to the embodiment of the present invention, another advantage of the present invention is that the LED lighting module of the present invention integrates the linear light source of the LED and the pedestal into a light source module, thereby simplifying the design. The line facilitates the assembly of the lighting module. According to the embodiment of the present invention, another advantage of the present invention is that the illumination module can be added to the LED module of the present invention, so that the illumination of the illumination module can be increased, and the illumination mode can be extended. The service life of the group. While the present invention has been described above in terms of a preferred embodiment, it is not intended to limit the invention. And the scope of the present invention is defined by the scope of the appended claims. [Simple description of the drawing] Fig. 1 is a schematic cross-sectional view showing a conventional lighting fixture. A light-emitting two preferred embodiment of a preferred embodiment of a light-emitting two preferred embodiment of a light-emitting two-second preferred embodiment of a light-emitting two preferred embodiment of a light-emitting two A light-emitting device of the preferred embodiment 201011201 Figure 2A is a front view of a polar light source module in accordance with the present invention. Figure 2B is a rear elevational view of the monopole light source module in accordance with the present invention. 2C is a perspective view of the back side of the one-pole light source module according to the present invention. FIG. 2D is a perspective view of the front side of the polar light source module according to the present invention. A perspective view of a polar body lighting module. Figure 3B is a cross-sectional view of a polar lighting module in accordance with the present invention. The fourth λ diagram shows a schematic view of the device of the second polarizer illumination module in accordance with the present invention. Figure 4 is a top view of a diode lighting module in accordance with the present invention. a luminescence of a preferred embodiment
102 :框體 10 6 :外 | 110 :反射罩 【主要元件符號說明】 1〇〇 :照明燈具 104 : η 108 :燈管 112 :燈罩 200 :發光二極體光源模組 200a :發光二極體光源模組 202 .發光二極體線性光源 15 201011201102: frame 10 6 : outer | 110 : reflector 【 main component symbol description 1 〇〇 : lighting fixture 104 : η 108 : tube 112 : lamp cover 200 : light emitting diode light source module 200 a : light emitting diode Light source module 202. Light-emitting diode linear light source 15 201011201
204 :發光二極體元件 206 : 208 :凸狀部 210 : 2 1 2 :頂面 214 : 21 6 :散熱模組 218 : 220 :電線 222 : 224 :卡勾 226 : 228 :基座 230 : 232 :邊 234 : 300 :發光二極體照明模組 302 :燈罩 304 : 306 :破孔 308 : 3 1 0 :電線 312 : 314 :背面 3 1 8 :電源模組 316 : 400 :發光二極體照明模組 402 :燈罩 404 : 406 :電線 408 : 410 :卡勾 4 1 4 :電線 412 : 電路板 外緣部 凹陷部 啟動器 把手 鎖固元件 邊 定位凹槽 外蓋 結合孔 電線 底面 啟動器 底面 止回彈片 16204: Light-emitting diode element 206: 208: convex portion 210: 2 1 2: top surface 214: 21 6 : heat dissipation module 218: 220: wire 222: 224: hook 226: 228: base 230: 232 : Side 234 : 300 : Light-emitting diode lighting module 302 : Shade 304 : 306 : Broken hole 308 : 3 1 0 : Wire 312 : 314 : Back 3 1 8 : Power module 316 : 400 : Light-emitting diode lighting Module 402: lampshade 404: 406: wire 408: 410: hook 4 1 4: wire 412: circuit board outer edge recessed portion starter handle locking element side positioning groove cover joint hole wire bottom starter bottom Rebound piece 16