M332782 八、新型說明: 【新型所屬之技術領域】 本創作涉及一種LED防爆燈結構改良,尤指一種利用 高效能、高亮度的LED燈搭配導熱管以做為防爆燈之結構 〇 【先前技術】 按,習用的防爆燈結構,多數係採大型的燈泡配合金 屬製的外殼,然而,此一習用方式在實施後具以下弊端: • 1、習用防爆燈的大型燈泡耗電量相當的大,電費的龐 大自是不在話下,是故,如何能減少電量的損耗,蓋為目 前業界亟欲發展的重點。 2、習用防爆燈的大型燈泡不僅耗電量大,功率亦是相 當的高’所以造成金屬腔艘内的溫度遽增,如何運用現有 的散熱裝置將其散熱,也是業界研究的一大重點。 【新型内容】 本創作提供一種LED防爆燈結構改良,希藉此設計, 鎌 提供一種更優於習用之LED防爆燈結構者,使其不僅節能 ’亦能發揮出等同於習用防爆燈的亮度,更可快速並直接 的散熱,為其主要創作之目的。 為達到前述創作目的,本創作所運用之技術手段為提 供一種LED防爆燈結構改良,其主要包括有一燈殼、數 LED燈、數LED散熱裝置、數彈片及數固定元件所組成, 該燈般係用以容置LED燈、LED散熱裝置、彈片及固定元 件,其係由一燈罩、一燈體及一底罩所組成,該燈罩係為 M332782 一可透光之罩型體,乃設於燈體之一側,而燈體之另一側 ’ 則連接設有底罩,且該底罩係一與燈艘外型相配合之蓋狀 體,而該燈體係為兩側具開口且内具一容置空間之錐狀殼 體,其内設有數鎖附柱,係用以將彈片經固定元件設固於 燈體内,並於内設有數嵌槽,係用以嵌插彈片,而該LED 散熱裝置係由數導熱管及一嵌座所組成,該導熱管係呈環 狀排列設於嵌座上,而該嵌座設於燈殼之燈體的一側,該 LED燈則設於LED散熱裝置之導熱管的一側,係藉由LED • 散熱裝置的導熱管而將其熱量發散出去,而該彈片係用於 將LED散熱裝置的導熱管壓固於燈殼之燈體内,其一側設 有一凸板,係用於將彈片之一側嵌設於燈體之嵌槽内,而 彈片之另一侧則設有一凹槽,係用以將LED散熱裝置之導 熱管插固於燈體内的鎖附柱之間,而凹槽的兩側設有數固 定孔,俾藉該固定孔經固定元件將彈片固定於燈體内。 【實施方式】 _ 本創作可有多種不同的結構實施例,現將僅為實施例 但非用以限制的數種具體實施例,參照所附圓式並就本創 • 作之較佳結構内容說明如下: 請參閱第1、2、3圖所示,本創作之LED防爆燈結構 改良,其主要包括有一燈殼10、數LED燈20、數LED散 熱裝置30、數彈片40及數固定元件50所組成,該燈殻 10係用以容置LED燈20、LED散熱裝置30、彈片40及固 定元件50,其係由一燈罩11、一燈體12及一底罩13所 組成’該燈罩11係為一可透光之罩型體,乃設於燈體 6 M332782 之一側,而燈體12之另一側則連接設有底罩13,且該底 罩13係為一與燈體12外型相配合之蓋狀艘,而該燈艘12 係為兩側具開口且内具一容置空間之錐狀金屬殼體,其内 設有數鎖附柱121,係用以將彈片40經固定元件50設固 於燈體12内,並於内設有數嵌槽122,係用以嵌插彈片 40,而該LED散熱裝置30係由數導熱管31及一嵌座32 所組成,該導熱管31係呈環狀排列設於嵌座32上,而該 欲座32設於燈殼10之燈體12内的一側,該LED燈20則 # 設於LED散熱裝置30之導熱管31的一侧,係藉由LED散 熱裝置30的導熱管31而將其熱量發散出去,而該彈片40 係用於將LED散熱裝置30的導熱管31壓固於燈殼1〇之 燈體12内,其一側設有一凸板41,係用於將彈片40之一 側嵌設於燈體12之嵌槽122内,而彈片40之另一侧則設 有一凹槽42,係用以將LED散熱裝置30之導熱管31插固 於燈體12内的鎖附柱121之間,而凹槽42的兩側設有數 固定孔43,俾藉該固定孔43經固定元件50將彈片40固 ^ 定於燈艘12内,其中,該1^0散熱裝置30導熱管31係 為一具可與燈體12内侧壁面緊貼造型之金屬中空管,而 該燈體12之材質可設為鋁、銅......等具高效率散熱效果 之金屬,燈罩11則可設為防爆玻璃......等高耐熱之透光 材質,該底罩13與燈體12的結合方式可使用螺接、嵌合 等易於拆裝之接合方式,而燈罩11與燈體12之間亦同, 且該固定元件50可為螺絲。 請參閲第1、2、3、4、5圓所示,本創作之LED防爆 7 M332782 燈結構改良在實施時,係先將LED燈2〇設於led散熱裝 置30的導熱f 31上,再將其依環狀排列設於⑽散熱裝 置30的嵌座32上,並將該嵌座32嵌入燈殼1〇的燈艎12 内,接著,將彈片40 —側之凸板41插入燈體i2内所設 之嵌槽122中,並將導熱管31置於彈片4〇另一側的凹槽 • 42内,再利用固定元件50穿經彈片40凹槽42兩侧之固 、定孔43而將該彈片40設固於燈體12内,並以此彈片4〇 的彈力壓迫LED散熱裝置3〇之導熱管31,使其依循並貼 合燈體12内側的壁面,而可將LED燈2〇作動時所產生的 熱能經由LED散熱裝置3〇及燈體12發散出去,並使整組 LED散熱裝置30及LED燈20得以固定於燈體12内,最後 再將燈罩11設於燈體12之一側,底罩13設於燈體12之 另一側,其中,該燈體12内亦可設數密合槽123以置固 LED散熱裝置30之導熱管31a,如第6圖所示該密合槽 123係為一與導熱管3U外型相符之半凹狀槽體故可將 導熱管31a直接嵌置於該密合槽123内,如此一來,該導 熱管31a之外型則可不需設為緊貼燈體12内侧壁面,僅 ‘需與密合槽123緊貼即可,可省去相當多的加工時程,且 ♦該密合槽123内之平面可設為斜面、直平面......等易於加 的面’而本創作之LED防爆燈結構改良若於實施時,可 於燈艘12與底單13之間加設一散熱盤6〇以助於整體的 散熱,如第7圓所示。 【圖式簡單說明】 第1囷為本創作之立體分解圖。 M332782 第2圖為本創作之局部剖視圖(一)。 第3圖為本創作之立體組合圓(一)。 第4圖為本創作之立體組合圓(二)。 第5圖為第4圓在A-A位置之剖視圖。 第6圖為本創作之局部剖視圖(二)。 第7圖為本創作加設一散熱盤之立鱧示意圖。 【主要元件符號說明】M332782 VIII, new description: [New technical field] This creation involves an improvement of the structure of LED explosion-proof lamps, especially a high-performance, high-brightness LED lamp with a heat pipe as the structure of the explosion-proof lamp. [Prior Art] According to the conventional explosion-proof lamp structure, most of the large-sized bulbs are matched with metal casings. However, this conventional method has the following drawbacks after implementation: • 1. Large-scale bulbs with conventional explosion-proof lamps consume a considerable amount of electricity, and electricity costs. The huge size is self-evident, it is the reason, how to reduce the loss of electricity, and cover the current development of the industry. 2. Large-scale light bulbs with conventional explosion-proof lamps not only consume large amounts of electricity, but also have a relatively high power. This causes the temperature inside the metal chamber to increase. How to use the existing heat sink to dissipate heat is also a major focus of the industry. [New content] This creation provides an improved structure of the LED explosion-proof lamp. It is designed to provide a better structure than the conventional LED explosion-proof lamp structure, so that it can not only save energy, but also can exert the brightness equivalent to the conventional explosion-proof lamp. It can be quickly and directly cooled for its main purpose. In order to achieve the above-mentioned creative purposes, the technical means used in the present invention is to provide an improved structure of an LED explosion-proof lamp, which mainly comprises a lamp housing, a plurality of LED lamps, a number of LED heat sinks, a plurality of elastic pieces and a plurality of fixed components. The utility model relates to an LED lamp, an LED heat sink, a spring piece and a fixing component, which is composed of a lamp cover, a lamp body and a bottom cover. The lamp cover is a M332782 light transmissive cover type body, which is One side of the lamp body, and the other side of the lamp body is connected with a bottom cover, and the bottom cover is a cover body matched with the outer shape of the lamp vessel, and the lamp system has openings on both sides and inner a conical housing having a receiving space, wherein a plurality of locking posts are arranged therein for fixing the elastic piece to the lamp body via the fixing component, and a plurality of embedding grooves are provided therein for inserting the elastic piece, and The LED heat dissipating device is composed of a plurality of heat-conducting tubes and a nesting frame, wherein the heat-conducting tubes are arranged in an annular shape on the inserting seat, and the inserting seat is disposed on one side of the lamp body of the lamp housing, and the LED lamp is provided On the side of the heat pipe of the LED heat sink, it will be through the heat pipe of the LED • heat sink The heat is dissipated, and the shrapnel is used for pressing the heat pipe of the LED heat sink to the lamp body of the lamp housing, and a convex plate is disposed on one side thereof for embedding one side of the elastic piece in the lamp body. In the slot, the other side of the spring is provided with a recess for inserting the heat pipe of the LED heat sink between the lock columns of the lamp body, and a plurality of fixing holes are provided on both sides of the groove. The elastic hole is fixed in the lamp body through the fixing hole through the fixing member. [Embodiment] There may be many different structural embodiments of the present invention. For the specific embodiments, which are merely exemplary but not limited, reference is made to the accompanying circular form and the preferred structural content of the present invention. The description is as follows: Please refer to Figures 1, 2 and 3 for the improvement of the structure of the LED explosion-proof lamp of the present invention, which mainly comprises a lamp housing 10, a plurality of LED lamps 20, a number of LED heat sinks 30, a plurality of elastic sheets 40 and a plurality of fixed components. The lamp housing 10 is used for accommodating the LED lamp 20, the LED heat sink 30, the elastic piece 40 and the fixing component 50, which is composed of a lamp cover 11, a lamp body 12 and a bottom cover 13. The 11 series is a light-transmissive cover body, which is disposed on one side of the lamp body 6 M332782, and the other side of the lamp body 12 is connected with the bottom cover 13, and the bottom cover 13 is a lamp body. The 12-shaped outer shape is matched with a lid-shaped vessel, and the lamp vessel 12 is a tapered metal casing having an opening on both sides and having a receiving space therein, and a plurality of locking posts 121 are provided therein for the elastic piece 40 The fixing member 50 is fixed in the lamp body 12, and is provided with a plurality of slots 122 for inserting the elastic piece 40, and the LED heat sink 30 is The heat pipe 31 and the socket 32 are arranged in an annular arrangement on the insert 32, and the seat 32 is disposed on one side of the lamp body 12 of the lamp housing 10. The LED lamp 20 Then, one side of the heat pipe 31 of the LED heat sink 30 is radiated by the heat pipe 31 of the LED heat sink 30, and the spring 40 is used for the heat pipe 31 of the LED heat sink 30. The lamp body 12 is fixed in the lamp body 12, and a convex plate 41 is disposed on one side thereof for embedding one side of the elastic piece 40 in the recess 122 of the lamp body 12, and the other side of the elastic piece 40 A recess 42 is provided for inserting the heat pipe 31 of the LED heat sink 30 between the locking posts 121 in the lamp body 12, and a plurality of fixing holes 43 are provided on both sides of the groove 42. The fixing hole 43 fixes the elastic piece 40 to the lamp vessel 12 via the fixing component 50. The heat pipe 31 of the heat dissipation device 30 is a metal hollow pipe which can be closely attached to the inner wall surface of the lamp body 12. The material of the lamp body 12 can be made of aluminum, copper, etc., which has high efficiency of heat dissipation, and the lamp cover 11 can be made of explosion-proof glass... , the 13 embodiment in conjunction cover and the lamp body 12 may be screwed used, like easy disassembly of the fitting engagement, and likewise the globe 11, and 12 between the fixing member 50 and the lamp body may be a screw. Please refer to the circle of 1, 2, 3, 4, and 5, the LED explosion-proof 7 M332782 lamp structure improvement of this creation is implemented, firstly, the LED lamp 2 is set on the heat conduction f 31 of the LED heat sink 30, Then, it is arranged in a ring shape on the socket 32 of the heat dissipating device 30, and the insert 32 is embedded in the lamp housing 12 of the lamp housing 1 , and then the convex plate 41 on the side of the elastic piece 40 is inserted into the lamp body. In the recess 122 provided in the i2, the heat pipe 31 is placed in the groove 42 of the other side of the elastic piece 4, and then the fixing member 50 is passed through the fixing and fixing holes 43 on both sides of the groove 42 of the elastic piece 40. The elastic piece 40 is fixed in the lamp body 12, and the elastic tube 31 of the LED heat sink 3 is pressed by the elastic force of the elastic piece 4〇 to follow and fit the wall surface of the inner side of the lamp body 12, and the LED lamp can be used. The thermal energy generated during the operation is dissipated through the LED heat sink 3 and the lamp body 12, and the entire set of LED heat sink 30 and the LED lamp 20 are fixed in the lamp body 12, and finally the lamp cover 11 is placed on the lamp body. On one side of the 12, the bottom cover 13 is disposed on the other side of the lamp body 12. The lamp body 12 may also be provided with a plurality of sealing grooves 123 for fixing the heat pipe 31a of the LED heat sink 30. The sealing groove 123 shown in FIG. 6 is a semi-concave groove corresponding to the outer shape of the heat pipe 3U, so that the heat pipe 31a can be directly embedded in the sealing groove 123, so that the heat pipe The outer shape of the 31a type does not need to be placed close to the inner side wall surface of the lamp body 12, and only needs to be closely attached to the close-fitting groove 123, which can save a considerable amount of machining time, and ♦ the plane in the close-fitting groove 123 It can be set as a beveled surface, a straight surface, etc., and the LED explosion-proof lamp structure is improved. If implemented, a heat sink 6 can be added between the lamp vessel 12 and the bottom sheet 13. 〇 to help the overall heat dissipation, as shown in the 7th circle. [Simple description of the diagram] The first one is the three-dimensional exploded view of the creation. M332782 Figure 2 is a partial cross-sectional view of the creation (1). The third picture is the three-dimensional combination circle (1) of the creation. The fourth picture is the three-dimensional combination circle of the creation (2). Figure 5 is a cross-sectional view of the fourth circle at the A-A position. Figure 6 is a partial cross-sectional view of the creation (2). Figure 7 is a schematic diagram of the installation of a heat sink. [Main component symbol description]
10、燈殼 12、 燈體 122、嵌槽 13、 底罩 30、LED散熱裝置 32、後座 41、凸板 43、固定孔 60、散熱盤 11、燈罩 121、鎖附柱 123、密合槽 20 、 LED 燈 31、31a、導熱管 40、彈片 42、凹槽 50、固定元件10, the lamp housing 12, the lamp body 122, the slot 13, the bottom cover 30, the LED heat sink 32, the rear seat 41, the convex plate 43, the fixing hole 60, the heat sink 11, the lamp cover 121, the locking column 123, the close groove 20, LED lights 31, 31a, heat pipe 40, shrapnel 42, groove 50, fixed components