M375178 五、新型說明: 【新型所屬之技術領域】 本創作有關一種發光二極體照明燈具的改良結構,特 別是指一種方便配線安裝以及日後維護更換及將燈具改為 塑膠材質以降低成本與增加造型可塑性之發光二極體(led) 光源模組專屬照明燈具。 【先前技術】M375178 V. New description: [New technical field] This is an improved structure of a light-emitting diode lighting fixture, especially a convenient wiring installation and future maintenance and replacement, and the conversion of the lamp to plastic material to reduce cost and increase Shaped plastic light-emitting diode (LED) light source module exclusive lighting. [Prior Art]
隨著現代科技的快速發展,由於發光二極體燈具有耗 電量低、使用壽命長、反應速度快以及不閃爍之優點,而 且工作溫度較低,使得燈具結構體可使用防火耐熱等級之 工程塑膠材料製造以降低成本,故於市售照明用光源中逐 漸取代傳統燈泡以及含汞日光燈管。 然而習用發光二極體照明技術仍有許多可改善之空 間’請參閱第1圖所示一種習用發光二極體群組照明燈具, 包含-燈座6卜-燈罩64 ’複數個發光二極體光源63以 及一電源模組62 ’上述電源模組62分別獨立與各發光二極 體光源63獨立連接,但發光二極體燈具多卩大量發光二極 體同時照明,故於施工錢日後維護時必每—個發光 二極體分別拆裝’而且發光二極體燈具只能使用直流電源 作為其電力㈣,目此,無法·賴-般電源插座, 必須額外加設-交直流變換電壓源以及—發光二極體驅動 裝置’故往往造成施工或轉配線時,必舰每-個發光 二極體單獨進行配線而増加施工上的步驟,於施工以及維 護上實屬不便,顯然有改進的空間。 3 【新型内容】 爰是,本創作的主要目的在於提供一種發光二極體光 源模組專屬照明,藉由將燈具内部各結構模組化的方式並 配合專屬以明燈具結構,使得安裝燈具以及日後維護上能 夠更加便捷。 為達上揭目的,本創作發光二極體光源模組專屬照明 燈具係包含一燈座,等距鉚合於燈座正面之複數個光源模 組挾持具,複數個挾持於光源模組挾持具内的光源模組, 一用以供應電力並驅動發光二極體光源之供電驅動模組, 以及一蓋合於上述燈座之燈罩。 上述燈座包含一容納空間,上述容納空間之一側設有 一開口結構,上述燈座於開口結構之相對側等距設有上凹 之槽孔以及鉚針孔,上述槽孔包含兩相對開設之弧型開 孔’上述弧型開孔使原本為平板狀的燈座於現場施工時打 凹形成槽孔,並作為電線穿過騎σ,上述兩弧形開孔之 間開有兩鉚釘孔。 於一較佳實施例中,上述燈座設成正方形之型態,但 此用為方便舉例說明,並非加以限制π即,上述燈座的 造型可依Μ明場地之需求而㈣UJ形,長方形以及其他 可行之幾何形狀造型。 上述光源模組挾持具包含-座部,上述座部背面設有 兩個鉚接於上述_槽孔狀鉚釘孔的崎,於柳接時使 上述光源模組挾·紐㈣正面緊密貼合,上述座部之 正面並設有-卡榫及^合上述卡榫開合咖之蓋部,上 述蓋部之前端設有一與卡榫配合之卡榫勾,並於内側設有 一用以抵壓上述光源模組之彈片。 於一較佳實施例中,上述光源模組挾持具以平行雙排 方式裝設於燈座正面,但此用為方便舉例說明,並非加以 限制。亦即,上述光源模組挾持具可依照燈座的造型而改 以輕射狀、環狀多邊形狀配置及其他可行之幾何造型配置 且材質為金屬及防火耐熱等級之工程塑膠的其中一種材 料。 上述光源模組包含一光源模組載板,上述光源模組載 板為一設有聯通電路之防火耐熱材質薄板,上述光源模組 載板上等距離間隔設有複數個發光二極體以及鉚釘孔,上 述鉚釘孔與發光二極體互相間隔排列,並於所述發光二極 體周圍設有複數個散熱孔。 於一較佳實施例中,上述光源模組載板為一防火耐熱 材質之印刷電路版,且上述散熱孔以同心圓環狀設於上述 發光二極體周圍而成複數個散熱孔群組,然此僅作為舉例 用而非加以限制’亦即上述散熱孔群組可按照需求設置為 矩形排列、橢圓型排列以及不規則形排列;上述防火耐熱 材質為如玻璃纖維布基板、陶瓷基板、金屬基板、複合基 板、熬塑性基板及防火耐熱等級工程塑膠基板的其中一種 材料。 上述光源模組載板靠近邊緣處設有一電源連接線,使 其一端與光源模組載板内之聯通電路電性相接,另一端設 有一連接頭,上述發光二極體藉由光源模組載板内建之聯 通電路而與上魏源連魏電性相接。 於-較佳示範例中,上述絲餘設置為長方形薄 板,但此用為方便舉例說明,並非加以限制。亦即,上述 光源模組可依紐朗幾何造型及光源漁婦具的設置 方式而改為圓形,橢圓型,以及圓弧型之其他幾何型狀造 型。 上述供電驅動模組包含一固定盒,一可控签流頓源 裝置’-發光二極體驅棘置’上朗定盒於敢位置處 開有至少一個配線用通孔,使内部電線得以通過,上述可 控整饥電廢源裝置與發光二極體驅動裝置於固定盒内預先 完成配線作業’―與外部減接的交流電源線以及複 數個直流電源線,上述之直流電源線之—端設有與上述連 接頭契合之連接頭,藉將兩連接頭契合而讓直流電源線與 電源連接線電性相接,使供電驅動模組與每一發光二極體 光原7G成IIH導通’上述gj定盒造型可依燈具之實際需求 而改以圓形’長方形以及其絲何可行之幾何形狀造型, 此固定盒材質為金屬及防火耐鮮級之工程歸的其令一 種材質。 上述光學燈罩用以保護燈具内的光源模組,於可應用 =實施例中其係-可透光材質製成之微幅凹凸面、單凸、 單凹、雙凸、雙凹及平面板材的其卜種板材,且上述光 學燈罩表面做細微雛狀、職、霧面、透明及乳白色的 其中-種處理’上述可透光材質係為壓克力、塑膠、pc、 ps及玻璃的其中一種非金屬材料。 於一可行實施例中’於上述光源模組载板預設處進一 步設有一貳次光學元件。上述貳次光學元件為反光元件及 折射鏡片元件的其中一種裝置,藉以將光線依照使用需求 反射或折射’而達提升照明效率、防止炫光及聚焦投射的 作用。 於另一可行實施例中,上述貳次光學元件為一設於光 源模組載板背側並略大於光源模組載板的長方形反光罩, 藉以將光線集中投射而提高照明效率。上述長方形反光罩 之内表面做鏡面處理,並與對應上述光源模組載板所設鉚 釘孔處開有鉚釘孔’藉以和上述光源模組載板鉚合相接。 上述光源模組載板邊緣預設處設有線材通孔,使上述電源 連接線得以穿過。 於一可行實施例中,上述貳次光學元件為一設於光源 模組載板表面並略小於光源模組載板的長方形反光罩,藉 以將光線集中投射而提高照明效率。上述長方形反光罩之 内表面做鏡面處理,並配合上述光源模組載板所設鉚釘孔 處開有鉚釘孔’配合上述光職喊板所設發光二極體處 設有通孔,藉以和上述光源模組載板鉚合相接。 於一可行實施财,上贼絲學元件包含散熱孔群 組週側的-組定讀孔,以及定位於上述定位槽孔内的一 J 31反光罩。上述小型反光罩為—兩端開孔之圓錐狀結 構,其較小開狀-端設有配合上述定位槽⑽定位板, 並接合粒於上奴位槽财,场㈣反光如側表面 設為平滑鏡面,用以將光線集中投射增加照明效率。 於另一可行實施例中,上述小型反光罩進一步包含— 罩殼體以及-固定於罩殼體内部的格狀反光罩,上述格狀 反光罩設為-兩端開口的多面體結構,且其内表面設為平 滑鏡面,用以將光線集中投射並減少炫光。 於一可行實酬巾,上賊:欠光學元件為-設於散熱 孔群組週側的光學透鏡模組,上述光學透鏡模組包含一罩 设體以及一光學透鏡。上述光學透鏡為單凹、雙凹、單凸、 雙凸、凹凸、細微顆粒及刻花之任一型態,用以使光線擴 散、聚焦投射或是漫射減少炫光。 本創作的特點在於藉著將燈具内部之發光二極體光源 裝置、供電驅動裝置進行模組化以達配線方便,並配合光 源模組挟持具及光源模組的搭配使用而達到安裝及拆換維 護便利的目的。 【貫施方式】 茲為便於更進一步對本創作之構造、使用及其特徵有 更深一層明確、詳實的認識與瞭解,爰舉出較佳實施例, 配合圖式詳細說明如下: 首先請參閱第2圖及第3圖’於圖示較佳實施例中, 本創作發光二極體光源模組專屬照明燈具係包含一燈座 10 ’等距鉚合於燈座1〇正面之複數個光源模組挾持具2〇, 複數個挾持於光源模組挾持具20内的光源模組3〇,一用以 供應電力並驅動發光二極體光源之供電驅動模組4〇,以及 一蓋合於上述燈座10之光學燈罩16。 上述燈座10包含一容納空間14 ’上述容納空間μ之 一側设有一開口結構15,上述燈座1〇於開口結構之相 對側等距設有上凹之槽孔U以及擊m 17,上述槽孔u 包含兩相對開設之弧型開孔12,上述弧型開孔12使^本為 平板狀的燈座1〇於現場施工時易於打凹形成上述槽孔U, 並作為電線穿過的通σ,上述兩弧賴孔12之間開有兩柳 釘孔13。 於圖示—較佳實施例中,上述燈座10設製成正方形之 型態,但此用為方便舉例說明,並非加以限制。亦即,上 述燈座10的造射依題明場地之需求而改以圓形,長方 形以及其他可行之幾何形狀造型。 請參閱第4圖所*,上述光源模組挾持具20包含-座 部21,上述座部21背面設有兩個鉚接於上述内凹槽孔u 内之鉚釘孔13辦㈣τ22 ’且鑛卩接日鞭上述《源模組挟持 具20與燈座1〇的正面緊密貼合,上述座部2ι之正面設有 =卡榫23及一配合上述卡榫23開合關閉之蓋部%,上述 蓋邛24之則端設有一與卡榫23配合之卡榫勾乃,並於上 it蓋。P 24内侧6又有—用以抵壓上述光源模組如之彈片% /於圖示一較佳實施例中,上述光賴組挾持具2〇以平 行又排方式裝:¾於燈座1G正面,但此職方便舉例說明, 並非加以限制。亦#,上述光源模組挾持具20可依照燈座 ^的造型而改吨射狀、環狀多邊雜配置及其他可行之 成何配置且材質為金屬及防火耐熱等級之工程塑膠的 其中一種材料。 現°月參閱第3圖,上述光源模組30包含-光源模組載 板31 ’上述光源模組載板31為一設有聯通電路之防火耐熱 材質薄板,上述光源模組載板31上等距離間隔設有複數個 發光一極體33以及鉚釘孔36,上述發光二極體33以及鉚 釘孔36互相間隔排列,並於所述發光二極體33周圍開有 複數個散熱孔32,於一較佳實施例中,上述光源模組載板 31為一防火耐熱材質之印刷電路版,且上述散熱孔32以同 心圓環狀設於上述光源模組載板31上而成複數個散熱孔群 組37,然此僅作為舉例用而非加以限制,亦即上述散熱孔 群組37可按照需求設置為矩形排列、橢圓型排列以及不規 則形排列。上述防火耐熱材質為如玻璃纖維布基板、陶瓷 基板、金屬基板、複合基板、熬塑性基板及防火耐熱等級 工程塑膠基板的其中一種材料。 上述光源模組載板31靠近邊緣處設有一電源連接線 34,使其一端與光源模組載板31内之聯通電路電性相接, 另一端設有一連接頭341,上述發光二極體33藉由光源模 組載板31内建之聯通電路而與上述電源連接線M電性相 接。 於圖示一較佳示範例中,上述光源模組30設置為長方 形薄板,但此用為方便舉例說明,並非加以限制。亦即, 上述光雜組30可依照燈座1〇的幾何造型及光源模組挟 持具20的設置方式而改為圓形,橢圓型,以及圓弧型之其 他幾何型狀造型。 ~ 現請參閱第2圖,上述供電驅動模組4〇包含一固定各 41,一可控整流電壓源裝置42,上述固定盒41於預定位置 處開有至少一個配線用通孔46,使内部電線得以通過,一 發光二極體驅動裝置43,上述可控整流電壓源裝置42與發 光二極體麟裝置43關定盒41喃先完細線作業, 一與外部電源減制交龍輯44以及減個直流電源 線45,上述之直流電源線45之一端設有與上述連接頭Μ! Θ合之連接頭45卜藉將兩連接頭契合而讓直流電源線45 與電源連接、線34 f性相接,使供電驅動模組4〇與每一發 光二極體33光源完成電性導通,上述固定盒41造型可依 燈具之貫際需求而改以圓形,長方形以及其他任何可行之 幾何形狀造型’此蚊盒材_金屬及蚊耐鮮級之工 程塑膠的其中一種材質。 請參閱第2圖及第5圖所*,於_—較佳實施例中, 上述供電鷄模組4〇裝設於触1G f面,但此 舉例說明,並非加以限制。亦即,上述供電驅動模組4〇依 照配線需求設置於燈座i㈣正面或上述容輕間14内之 任何一側。 。/述光學燈罩Ιό用以保護燈具内的光源模组3〇,於一 可行實^种上述光學鮮16柯透光材成的微幅凹 凸面、、早凸、單凹、雙凸、雙凹及平面的其中—種板材, 且^述光學燈罩16表面經細微獅狀、職、霧面、透明 =礼白色的其中一種處理,上述透光材質係為壓克力、塑 夕、pC、PS及玻璃的其中一種非金屬材料。 現^閱第6 11 ’於圖示—可行實施例中,於上述光 ;,、核組载板31預設處進一步設有一武次光學元件%。上述 戴次光學元件50為反光元件及折射鏡片元件的其中一種裝 置’用以將光線依照使用需求反射或折射,而達提升照明 效率、防止炫光及聚焦投射的作用。 於圖示此一實施例中,上述貳次光學元件5〇為一設於 光源模組載板31背側略大於光源模組載板31的長方形反 光罩51,藉以將光線集中投射而提高照明效率。上述長方 形反光罩51之内表面做鏡面處理,並與對應上述光源模組 载板31所設鉚釘孔36處開有鉚釘孔511,藉以和上述光源 模組载板31鉚合相接。上述長方形反光罩51邊緣預設處 設有線材通孔512,使上述電源連接線34得以穿過。 現請參閱第7圖,於圖示另一可行實施例中,上述貳 次光學元件50為-設於統模組她31絲並略小於光 源模組載板31的長方形反光罩52,藉以將光線集中投射而 提高照率。上述長方疏光罩52之内表面做鏡面處 里且在對應上述光源模組載板31所設鉚釘孔%處開有 鉚釘孔521,配合上述光源模組載板31所設發光二極體33 處叹有通孔522 ’藉以和上述光源模組載板31鉚合相接。 ,,現請參閱第8A圖,於圖示一可行實施例中,上述戴次 光予元件50包3放熱孔群組37週側的一組定位槽孔%, 以及定位於上述粒觀35内—小奴鮮% ;上述㈣ 反光罩53為一兩端開孔之圓錐狀結構,其較小開孔之一端 設有配合上述定位槽孔35的定位板531,雜合定位於上 述疋位槽孔35中,其内側表面設為平滑鏡面,用以將光線 集中投射增加照明效率。 12 ,現請參閱S 8B目,於圖示再一可行實施例中,上述小 里反光軍53進-步包含—罩殼體μ以及一固定於罩殼體 54内部的格狀反光罩M卜上述格狀反光罩541 設為一兩 端開口的多面體結構,且上述小型反光罩S3内表面設為平 滑鏡面,肋將絲針投射並減少炫光。 ,現請參閱第8C圖,於圖示一可行實施例中,上述貳次 光學凡件50為一設於散熱孔群組37週側的光學透鏡模組 55 ’上述光學透鏡模組%包含一罩殼體54以及一光學透 鏡551。上述光學透鏡55丨為單凹、雙凹、單凸、雙凸、凹 凸細微顆粒及刻花之任一型態,用以使光線擴散、聚焦 投射或是漫射減少炫光。 本創作於安裝時將光源模組3〇挾合於光源模組挾持具 並以鉚釘將光源模組30與燈座1〇鉚合,再將電源 連接線34穿過弧糊孔12而與直流電源線45電性連接便 可完成安裝健日後拆裝維護時亦只紐絲模組挾 持具20解開、拆除鉚釘、將光源模組%取下後再把電源 連接線34與直流電源線45分離即可快速的完成拆換步驟。 紅上所述,本創作藉著將燈具内部之發光二極體光源 裝置供電驅動裝置進行模組化以達配線方便,並配合光 源模組挾持具及絲模_配合使麻制絲及拆換維 護便利的目的。 以上所舉實施例’僅用為方便說明本創作並非加以限 制’在不離本創作精神範蜂,熟悉此一行業技藝人士依本 創作申請糊顧及發明說明所作之各種㈣變形與修 飾’均仍應含括於以下申請專利範園中。 【圖式簡單說明】 第1圖係習用發光二極體光群組照明燈具之外觀立體 圖; 第2圖係本鱗—触實補之燈座組合圖; f 3 _本_光賴纟績光職祕持具之組合示 意圖; • 帛4圖縣_光職錄持具之剖面圖; _ 第5 ®縣創作另-健實施舰電驅賴組之配置 示意圖; 第6圖係本創作搭配反光罩使用之實施例圖; 第7圖係本創作搭配反光罩使用之另一實施例圖;以 及 第8A圖至第8C 圖係本創作搭配反光罩及透鏡模組使 用之實施例圖。 【主要元件符號說明】 10…燈座 20…光源模組挾持具 11槽孔 21—座部 U〜弧形開孔 22—柳釘 13〜鉚釘孔 23--卡摔 14〜容納空間 24…蓋部 15〜開口結構 25—卡榫勾 16〜光學燈罩 26…彈片 17〜鉚釘孔 30…光源模組 14 M375178With the rapid development of modern technology, light-emitting diode lamps have the advantages of low power consumption, long service life, fast response speed and no flicker, and low operating temperature, so that the structure of the lamp can be fireproof and heat resistant. Plastic materials are manufactured to reduce costs, so traditional light bulbs and mercury-containing fluorescent tubes are gradually replaced by commercially available lighting sources. However, there are still many areas for improvement in the conventional light-emitting diode lighting technology. Please refer to the conventional light-emitting diode group lighting fixture shown in FIG. 1 , which includes a lamp holder 6 - a lamp cover 64 'a plurality of light-emitting diodes The light source 63 and the power module 62' are respectively independently connected to the respective light emitting diodes 63, but the LEDs of the LEDs are illuminated by a plurality of LEDs at the same time. Every light-emitting diode must be disassembled separately' and the LEDs can only use DC power as their power (4). For this reason, it is not possible to use the AC-DC conversion voltage source. - When the light-emitting diode drive device is often used for construction or wiring, the wiring of each of the light-emitting diodes must be separately applied to the construction, which is inconvenient in construction and maintenance. Obviously there is room for improvement. . 3 [New content] The main purpose of this creation is to provide a special illumination for the LED light source module. By modularizing the internal structure of the lamp and matching the structure of the lamp to make the lamp and It is more convenient to maintain in the future. In order to achieve the goal, the exclusive lighting fixture of the light-emitting diode light source module comprises a lamp holder, a plurality of light source module holders equidistantly riveted to the front of the lamp holder, and a plurality of holdings of the light source module holder The light source module therein is a power supply driving module for supplying electric power and driving the light emitting diode light source, and a lamp cover covering the lamp socket. The lamp holder comprises an accommodating space, and an opening structure is arranged on one side of the accommodating space, and the lamp holder is provided with a concave groove and a rivet hole at equal intervals on opposite sides of the opening structure, and the slot comprises two opposite openings. The arc-shaped opening 'the above-mentioned arc-shaped opening makes the original flat-shaped lamp holder concavely form a slot at the time of site construction, and passes through the riding σ as an electric wire, and two rivet holes are opened between the two curved opening holes. In a preferred embodiment, the lamp holder is formed in a square shape, but this is for convenience of illustration, and is not limited to π. That is, the shape of the lamp holder can be determined according to the needs of the venue (4) UJ shape, rectangle and Other possible geometric shapes. The light source module holder includes a seat portion, and the back surface of the seat portion is provided with two saddles which are riveted to the slot hole-shaped rivet holes, and the front surface of the light source module 挟·News (4) is closely adhered when the joint is connected. The front side of the seat is provided with a card cover and a cover portion of the card opening and closing coffee cup. The front end of the cover portion is provided with a hook hook matched with the latch, and a lightproof hook is arranged on the inner side for pressing the light source The shrapnel of the module. In a preferred embodiment, the light source module holder is mounted on the front side of the lamp holder in a parallel double row manner, but this is for convenience of illustration and is not limited. That is to say, the light source module holder can be changed to a light-emitting, annular polygonal configuration and other feasible geometric configuration according to the shape of the lamp holder, and the material is one of engineering plastics of metal and fireproof heat resistance grade. The light source module comprises a light source module carrier board, wherein the light source module carrier board is a fireproof and heat resistant material sheet provided with a connecting circuit, and the light source module carrier board is provided with a plurality of light emitting diodes and rivets at equal intervals The hole, the rivet hole and the light emitting diode are spaced apart from each other, and a plurality of heat dissipation holes are arranged around the light emitting diode. In a preferred embodiment, the light source module carrier plate is a printed circuit board of a fireproof and heat resistant material, and the heat dissipation holes are disposed in a concentric annular shape around the light emitting diode body to form a plurality of heat dissipation hole groups. However, the venting holes can be arranged in a rectangular arrangement, an elliptical arrangement, and an irregular arrangement as required. The fireproof and heat resistant materials are, for example, a glass fiber cloth substrate, a ceramic substrate, and a metal. One of the materials of the substrate, the composite substrate, the ruthenium plastic substrate, and the fireproof and heat resistant grade engineering plastic substrate. The light source module carrier plate is provided with a power connection line near the edge, such that one end thereof is electrically connected to the communication circuit in the light source module carrier board, and the other end is provided with a connection head, and the light emitting diode is provided by the light source module The Unicom circuit built in the carrier board is connected to the Wei Wei source. In the preferred embodiment, the wire is provided as a rectangular sheet, but this is for convenience of illustration and is not intended to be limiting. That is to say, the above-mentioned light source module can be changed into a circular shape, an elliptical shape, and other geometric shapes of a circular arc type according to the arrangement of the New Zealand geometric shape and the light source fishing woman. The power supply driving module comprises a fixed box, and a controllable sign-off source device '-light-emitting diode-driver' is placed on the Langding box. At least one wiring through hole is opened at the position of the dare to enable the internal wires to pass. The above-mentioned controllable hunger electric waste source device and the light-emitting diode driving device are pre-finished in the fixed box. The external AC power line and the plurality of DC power lines are connected to the external power supply line. The connector is matched with the connector, and the DC power cable is electrically connected to the power cable by the two connectors, so that the power driver module is electrically connected to each of the light-emitting diodes 7G. The gj box shape can be changed to a circular 'rectangle and its geometric shape according to the actual needs of the lamp. The fixed box material is made of metal and fireproof and resistant to fresh grade. The optical lamp cover is used for protecting the light source module in the lamp, and is applicable to the micro-concave surface, the single convex, the single concave, the double convex, the double concave and the flat plate which are made of the light transmissive material in the embodiment. The above-mentioned light-transmissive material is one of acrylic, plastic, pc, ps and glass, and the surface of the above-mentioned optical lamp cover is made into a fine shape, a job, a matte surface, a transparent and a milky white. Non-metallic materials. In a possible embodiment, a sub-optical element is further provided at the preset of the light source module carrier. The above-mentioned secondary optical element is one of a retroreflective element and a refractive lens element, whereby the light is reflected or refracted according to the use requirement to enhance the illumination efficiency, prevent glare and focus projection. In another possible embodiment, the first optical component is a rectangular reflector disposed on the back side of the carrier of the light source module and slightly larger than the carrier of the light source module, so as to concentrate the light and improve the illumination efficiency. The inner surface of the rectangular reflector is mirror-finished, and a rivet hole is formed in the rivet hole corresponding to the carrier of the light source module to be riveted to the light source module carrier. A wire through hole is arranged at a predetermined edge of the carrier of the light source module to allow the power connection line to pass through. In a possible embodiment, the first optical component is a rectangular reflector disposed on the surface of the light source module carrier plate and slightly smaller than the light source module carrier plate, so as to concentrate the light and improve the illumination efficiency. The inner surface of the rectangular reflector is mirror-finished, and the rivet hole is provided in the rivet hole of the light source module carrier plate, and a through hole is formed in the light-emitting diode provided by the above-mentioned light professional board, thereby The light source module carrier plate is riveted and connected. In a feasible implementation, the thief silk element comprises a set of read holes on the circumferential side of the vent group, and a J 31 reflector positioned in the locating slot. The small-sized reflector is a conical structure with openings at both ends, and the smaller open-end end is provided with the positioning plate of the positioning groove (10), and the particles are joined to the upper slot. The field (4) is reflected as the side surface is set. Smooth the mirror to focus the light onto the lighting to increase lighting efficiency. In another possible embodiment, the small-sized reflector further includes a cover case and a lattice reflector fixed to the inside of the cover case, and the lattice reflector is configured as a polyhedral structure with both ends open, and the inside thereof The surface is set as a smooth mirror to focus the light and reduce glare. The optical lens module is provided on the peripheral side of the heat dissipation hole group, and the optical lens module comprises a cover body and an optical lens. The optical lens is of any one of a single concave shape, a double concave shape, a single convex shape, a double convex shape, a concave-convex shape, a fine particle shape and an engraved shape for diffusing light, focusing projection or diffusing to reduce glare. The feature of the creation is that the LED light source device and the power supply driving device inside the lamp are modularized to facilitate wiring, and the light source module holding device and the light source module are used together to achieve installation and replacement. The purpose of maintenance is convenient. [Comprehensive method] In order to further understand the structure, use and characteristics of this creation, there is a deeper and clearer understanding and understanding. The preferred embodiment is described below. The details are as follows: First, please refer to the second 3 and 3, in the preferred embodiment of the present invention, the exclusive lighting fixture of the present invention comprises a lamp holder 10' equidistantly riveted to a plurality of light source modules on the front side of the lamp holder 1 2挟, a plurality of light source modules 3〇 held in the light source module holding device 20, a power supply driving module 4〇 for supplying electric power and driving the light emitting diode light source, and a cover light The optical cover 16 of the seat 10. The lamp holder 10 includes a receiving space 14 ′ on one side of the receiving space μ, and an opening structure 15 is provided. The lamp holder 1 is equidistantly disposed on the opposite side of the opening structure, and is provided with a concave slot U and a hammer m 17 The slot u includes two oppositely formed arc-shaped openings 12, and the arc-shaped opening 12 allows the lamp holder 1 which is flat in shape to be easily dented to form the slot U when being applied in the field, and is passed as a wire. Through σ, two rivet holes 13 are opened between the two arc-shaped holes 12 . In the preferred embodiment, the lamp holder 10 is formed in a square shape, but this is for convenience of illustration and is not intended to be limiting. That is, the firing of the lamp holder 10 described above is changed to a circular shape, a rectangular shape, and other feasible geometric shapes according to the requirements of the site. Referring to FIG. 4, the light source module holder 20 includes a seat portion 21, and the back surface of the seat portion 21 is provided with two rivet holes 13 riveted into the inner groove hole u (4) τ22 ' and the joint is connected. The above-mentioned "source module holder 20" closely fits the front surface of the lamp holder 1 , and the front portion of the seat portion 2 is provided with a card holder 23 and a cover portion that closes the opening and closing of the card holder 23, and the cover is At the end of the 邛24, there is a card hook which is matched with the cassette 23, and is placed on the top cover. The inner side 6 of the P 24 is further configured to press the light source module such as the elastic piece %. In the preferred embodiment, the light-receiving group holding device 2 is mounted in parallel and in a row: 3⁄4 in the lamp holder 1G. Positive, but this job is convenient to illustrate, not limited.亦#, the above-mentioned light source module holder 20 can be modified according to the shape of the lamp holder ^ to change the shape of the ray, the ring-shaped polygonal miscellaneous configuration and other materials which are made of metal and fire-resistant and heat-resistant engineering plastics. . Referring to FIG. 3, the light source module 30 includes a light source module carrier 31. The light source module carrier 31 is a fireproof and heat resistant material sheet provided with a connecting circuit, and the light source module carrier 31 is waitable. A plurality of light-emitting diodes 33 and rivet holes 36 are disposed at intervals, and the light-emitting diodes 33 and the rivet holes 36 are spaced apart from each other, and a plurality of heat-dissipating holes 32 are formed around the light-emitting diode 33. In the preferred embodiment, the light source module carrier 31 is a printed circuit board of a fireproof and heat resistant material, and the heat dissipation holes 32 are disposed on the light source module carrier 31 in a concentric annular shape to form a plurality of heat dissipation holes. The group 37 is only used as an example and is not limited, that is, the above-mentioned vent group 37 can be arranged in a rectangular arrangement, an elliptical arrangement and an irregular arrangement as required. The above fireproof and heat resistant material is one of materials such as a glass fiber cloth substrate, a ceramic substrate, a metal substrate, a composite substrate, a tantalum plastic substrate, and a fireproof and heat resistant grade engineering plastic substrate. The power module connection board 31 is provided with a power connection line 34 near the edge, such that one end thereof is electrically connected to the communication circuit in the light source module carrier 31, and the other end is provided with a connection head 341, and the light emitting diode 33 is provided. The power connection line M is electrically connected to the power connection line M built in the light source module carrier 31. In the preferred embodiment of the invention, the light source module 30 is configured as a rectangular thin plate, but this is for convenience of illustration and is not limited. That is, the above-mentioned photo group 30 can be changed into a circular shape, an elliptical shape, and other geometric shapes of the circular arc type according to the geometric shape of the lamp holder 1〇 and the arrangement of the light source module holder 20. ~ Referring to FIG. 2, the power supply driving module 4A includes a fixed 41, a controllable rectified voltage source device 42. The fixed box 41 has at least one wiring through hole 46 at a predetermined position to make the inside The electric wire is passed through, a light-emitting diode driving device 43, the controllable rectifying voltage source device 42 and the light-emitting diode device 43 are used to close the box 41, and the external power supply is reduced. One DC power supply line 45 is disconnected, and one end of the above-mentioned DC power supply line 45 is provided with a connector 45 that is coupled with the above-mentioned connector; the two connectors are coupled to connect the DC power supply line 45 to the power source, and the line 34 f In connection, the power supply driving module 4 is electrically connected to the light source of each of the light emitting diodes 33, and the shape of the fixing box 41 can be changed into a circular shape, a rectangular shape and any other feasible geometric shapes according to the requirements of the light fixture. Modeling 'this mosquito box material _ metal and mosquito resistant to fresh grade engineering plastics one of the materials. Referring to Figures 2 and 5, in the preferred embodiment, the power supply chicken module 4 is mounted on the touch panel, but this is not limited thereto. That is, the power supply driving module 4 is disposed on either the front side of the socket i (4) or the light-receiving compartment 14 according to the wiring requirements. . /The optical lamp cover is used to protect the light source module 3〇 in the lamp, and the micro-concave surface, the early convex, the single concave, the double convex and the double concave formed by the above-mentioned optical fresh 16 ke transparent material are feasible. And the plane of the plate, and the surface of the optical lamp cover 16 is treated by one of a fine lion-like, job, matte, transparent = ritual white, the above-mentioned light-transmitting material is acrylic, plastic eve, pC, PS And one of the non-metallic materials of glass. Referring now to the sixth embodiment, in the illustrated embodiment, in the above-mentioned light, the core group carrier plate 31 is further provided with a fraction of the optical element. The above-mentioned wearing optical element 50 is one of the reflecting means and the refractive lens element's means for reflecting or refracting light according to the use requirements, thereby improving the illumination efficiency, preventing glare and focusing projection. In the embodiment shown in the figure, the first optical component 5 is a rectangular reflector 51 disposed on the back side of the light source module carrier 31 slightly larger than the light source module carrier 31, so as to concentrate the light and improve the illumination. effectiveness. The inner surface of the rectangular reflector 51 is mirror-finished, and a rivet hole 511 is formed in the rivet hole 36 corresponding to the light source module carrier 31, thereby being riveted to the light source module carrier 31. A wire through hole 512 is defined in the edge of the rectangular reflector 51 to allow the power connection line 34 to pass therethrough. Referring to FIG. 7 , in another possible embodiment, the first-order optical component 50 is a rectangular reflector 52 disposed on the system module 31 and slightly smaller than the light source module carrier 31. The light is concentrated and projected to increase the illumination rate. The inner surface of the rectangular louver 52 is mirror-finished and has a rivet hole 521 at a rivet hole % corresponding to the light source module carrier 31. The light-emitting diode is provided in conjunction with the light source module carrier 31. 33 is spurted with a through hole 522' to be riveted to the light source module carrier 31. Referring to FIG. 8A, in a possible embodiment, the wearing sub-lighting element 50 includes a set of positioning slots % on the circumferential side of the heat releasing hole group 37, and is positioned in the above-mentioned grain view 35. The above-mentioned (4) reflector 53 is a conical structure with a hole at both ends, and one end of the smaller opening is provided with a positioning plate 531 which cooperates with the positioning slot 35, and is misaligned and positioned in the above-mentioned clamping slot 35. The inner surface is set as a smooth mirror to concentrate the light and increase the illumination efficiency. 12, please refer to S 8B. In yet another feasible embodiment, the above-mentioned small-sized reflective unit 53 includes a cover shell μ and a lattice reflector M fixed inside the cover shell 54. The lattice reflector 541 is configured as a polyhedral structure with both ends open, and the inner surface of the small reflector S3 is provided as a smooth mirror surface, and the rib projects the needle and reduces glare. Referring to FIG. 8C, in the illustrated embodiment, the optical component 50 is an optical lens module 55 disposed on the circumferential side of the heat dissipation hole group 37. The optical lens module includes one of the optical lens modules. A cover housing 54 and an optical lens 551. The optical lens 55 is a single concave, biconcave, single convex, biconvex, concave convex fine particle and an engraved shape for diffusing light, focusing projection or diffusing to reduce glare. In the installation, the light source module 3 is coupled to the light source module holder and the light source module 30 is riveted with the socket 1 by the rivet, and then the power connection line 34 is passed through the arc hole 12 and the DC The power cable 45 can be electrically connected to complete the installation and maintenance. After the disassembly and maintenance, only the wire module clamp 20 is unwound, the rivet is removed, and the light source module is removed, and then the power cable 34 and the DC power cable 45 are removed. Separation can quickly complete the removal steps. According to the above description, the creation is modularized by the power supply driving device of the light-emitting diode light source device inside the lamp to facilitate wiring, and the light source module holding device and the wire mold _ cooperate to make the hemp wire and the replacement The purpose of maintenance is convenient. The above-mentioned embodiments are only used to facilitate the description of the present invention and are not intended to be inconsistent with the spirit of the present invention. Those skilled in the art who are familiar with this application and the descriptions of the inventions (4) deformations and modifications shall still be It is included in the following patent application garden. [Simple description of the diagram] The first picture is a stereoscopic view of the appearance of the light-emitting diode group lighting fixture; the second picture is the combination of the scale-touching lamp holder; f 3 _本_光赖纟光光秘Schematic diagram of the combination of the holders; • 剖面4 Tuxian _ guangguang recorded holder profile; _ 5 + County creation of another - Jian implementation of the ship drive drive group configuration diagram; Figure 6 is the creation of this creation with a reflector FIG. 7 is another embodiment of the present invention with a reflector; and FIGS. 8A to 8C are diagrams of an embodiment of the present invention with a reflector and a lens module. [Main component symbol description] 10...lamp holder 20...light source module holder 11 slot hole 21—seat U~arc opening 22—wille 13~rivet hole 23--card drop 14~ accommodation space 24... cover Part 15 - opening structure 25 - card hook 16 ~ optical lamp cover 26 ... spring piece 17 ~ rivet hole 30 ... light source module 14 M375178
31…光源权組載板 32…散熱孔 33…發光二極體 34…電源連接線 341-連接頭 3 5---定位槽孔 36—娜釘孔 37…散熱孔群組 40…供電驅動核組 41…固定盒 42…可控整流電壓源 裝置 43…發光二極體驅動 裝置 44…交流電源線 45— 直流電源線 451--連接頭 46— 配線用通孔 50—貳次光學元件 51…長方形反光罩 511 —銷1釘孔 512—線材通孔 52…長方形反光罩 521— 卿釘孔 522- --通孔 53— 小型反光罩 531…定位板 54— 罩殼體 541-格狀反光罩 55— 光學透鏡模組 551…光學透鏡 61…燈座 62…電源挨組 63…發光二極體光源 64…燈罩 1531...light source weight group carrier 32...heat dissipation hole 33...light emitting diode 34...power supply connection line 341-connector 3 5---positioning slot hole 36-na nail hole 37...heat dissipation hole group 40...power supply driver core Group 41...fixed box 42...controllable rectified voltage source device 43...light emitting diode driving device 44...AC power supply line 45-DC power supply line 451--connecting head 46- wiring through-hole 50-贰 optical element 51... Rectangular reflector 511 - pin 1 nail hole 512 - wire through hole 52... rectangular reflector 521 - clear nail hole 522 - - through hole 53 - small reflector 531... positioning plate 54 - cover housing 541 - lattice reflector 55—Optical lens module 551... Optical lens 61... Lamp holder 62... Power supply unit 63... Light-emitting diode light source 64... Lamp cover 15