201200787 . 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種光電裝置,特別關於一種具有管體 的光電裝置。 【先前技術】 隨著時代的演進,光電裝置已成為人們曰常生活中, 不可或缺的電器用品之一,光電裝置主要可分為發光裝置 φ 及發電裝置。於現行技術中,大部分的發光裝置為熱陰極 勞光燈(Hot Cathode Fluorescent Lamp, HCFL)及冷陰極 螢光燈(Cold Cathode Fluorescent Lamp, CCFL),近年來 也逐漸發展到以發光二極體(Light-Emitting Diode, LED ) 為光源的發光裝置,而發電裝置係以太陽能電池(s〇lar cell)元件為主要發展技術。 請參照圖1A及圖1B所示,其分別為習知一種冷陰極 螢光燈1的分解圖及圖1A之直線A-A的剖視圖。冷陰極 馨螢光燈1包括一管體11、一 U型冷.陰極螢光燈管12、一 固定元件13、一驅動電路板14以及二電連接元件15。其 中’管體11係為長條形且至少部分為可透光之材質所製 成。冷陰極骛光燈管12係設置於管體11内,並位於一固 疋元件13上,且與驅動電路板14電性連接。驅動電路板 14嵌合於固定元件13,並可驅動冷陰極螢光燈管12發 光。另外,電連接元件15係設置於管體11之二端,並分 別與冷陰極螢光燈12及驅動電路板14電性連接。 201200787 然而’由於冷陰崎光燈1可能會因使践環境溫度 的改變而熱漲冷縮,使得管體u受重力影響而產生麵曲 的現象’進而可能會與燈具B的連結不穩固,嚴重時可能 自燈具B上掉落。 因此,如何設計一種光電裝置,可防止管體翹曲現 象’已逐漸成為重要課題之一。 【發明内容】 有鑑於上述課題,本發明之目的為提供—種可防止管 體龜曲現象’又具有良好安全性以及氣密性的光電裝置。 j達上述目的,依據本發明之一種光電裝置包括一管 體、一光電單元以及至少一強化元件。管體係實質上電性 时象至乂 $分透光,f體之-橫截面呈封閉曲線。光電 早几設置於管體内。強化元件沿管體之長軸設置,並與管 體之一外表面連結。 在本發明之一實施例中,管體係一體成型或由複數子 部分結合。 。在本發明之一實施例中,光電單元包含至少一發光二 極體、或至少—螢光燈管、或至少-紫外線燈管、或至少 一太陽能電池元件。 在本發明之一實施例中,光電單元係附著於管體 壁。 3 沖舞月之一實施例中’強化元件係藉由撥型製程或 土衣私製造。強化元件的材質包含金屬。強化元件包含 201200787 一散熱結構。 ^㈣之—實施例中,強化元件與管體的連接方式 係為甘欠合、或黏合、或鎖合、或扣合、或熱炫合。 承上所述,依據本發明光電褒置之管體係實質 絕緣:且管體之橫截面係呈封閉曲線。另外,至少一強化 凡件係沿管體之長軸設置,並與管體之外表面連結。由於 f體的材質為電性絕緣,故能確保使用者使用光電裝置 時’不易有觸電的危險,因此’產品的安全性較佳也容易 符合電子產品的安規。另外,橫截面呈封閉曲線之管體盘 設置於管體兩端之二電連接元件密合,使光電裝置之氣密 性良好’水氣或異物不易進入管體内。此外,藉由強化元 件與管體外表面連結,使管體不易因熱漲冷縮而產生趣曲 現象,可避免因管體勉曲造成連結處不穩固,而自燈具上 掉洛的現象。因此,本發明之光電裝置具有良好安全性以 及氣密性’而且又可防止管體翹曲。 【實施方式】 以下將參照相關圖式,說明依本發明較佳實施例之光 電裝置,其中相同的元件將以相同的參照符號加以說明。 請參照圖2A及圖2B所示,其分別為本發明較佳實施 例之一種光電裝置2的分解圖及剖視圖。本發明之光電裝 置2係以照明裝置為例’另外,光電裝置2亦可例如為發 電裝置(例如太陽能電池)或其他光電装置。 光電裝置2包括一管體21、一光電單元22以及至少 201200787 一強化元件23。 管體21係實質上電性絕緣(例如材質為玻璃或塑膠) 且至少部分透光,管體21之一橫截面呈封閉曲線,其中, 封閉曲線係指起點和終點在同一點的曲線,也可為圓形、 楕圓形或其他形狀。本實施例係以管體21之上半部為可 ,光。換言之,光線可自管體21之上半部射出,當然, 官體21也可為全部透光。另外,如圖2B所示,管體u 之長軸方向的橫截面係呈封閉曲線,呈封閉曲線之優點在 於官體21之機械強度會更好,且不易因扭力㈤⑻而 變形。管體21可為一體成型,或由複數子部分以熱溶方 式結合而成。在本實施例中,管體21是以—體成型為例, 並以射出成型或押出成型的製程製造。管體21並形成複 數嵌槽或軌道,以利與光電單元22或強化元件23結合。 光電單元22設置於管體21内,並例如以嵌合方式或 緊配方式與管體21連結,本實施例係以嵌合為例。光電 單元22例如可包含至少一發光二極體、或至少一螢光燈 B或至少一糸外線燈管、或至少一太陽能電池元件(薄 膜型或聚光型)。在本實施例中,光電單元22可具有至少 一發光二極體元件221 (封裝體)設置於一基板222上, 或可具有至少一發光二極體晶粒以打線接合或覆晶接合 方式設置於一基板或導線架上。於此,係以複數發光二極 體元件221设置於基板222上為例來說明。 其中,發光二極體元件221之數量及排列方式並不受 限制。於此,是以複數發光二極體元件221呈一維直線排 201200787 列設置於基板222為例來說明。當然,可依據產品實際需 求,而將複數發光二極體元件221呈二維陣列排列設置於 基板222上。 在本實施例中,光電單元22更可例如具有一驅動電 路板223,設置於基板222,並設置於與發光二極體元件 221相對之一背面224。本實施例之驅動電路板223係設 置於基板222之背面224,且基板222具有一嵌槽,俾使 驅動電路板223並與基板222鼓合為例。驅動電路板223 ® 係用以驅動發光二極體元件221發光。 至少一強化元件23沿管體21之長轴設置,並與管體 21之一外表面212連結。強化元件23的數量可依產品實 — 際需求而設計,可為複數個或一個。在本實施例中,係以 一個強化元件23與管體21之外表面212連結為例。強化 元件23與管體21的連接方式例如可為嵌合、或黏合、或 鎖合、或扣合、或熱熔合。於此,係以管體21具有嵌槽' 鲁而強化元件23肷合於管體21之外表面212為例。另外, 強化元件23的材質例如可包含金屬、合金或陶究。於此, 強化元件23係以金屬為例,並以擠型製程或沖壓製程製 〇 光電裝置2更可包括至少一電連接元件24,電連接元 件24設置於管體21之一端,並與光電單元22電性連接^ 在本實施例中,係以兩電連接元件24分別#罢 ° &罝於管體21 之二端,並與管體21密合為例。其中,雷遠 、 包心钱元件24 5別具有一燈帽241及二電極接頭242,該等齋4 电極接頭242 201200787 係固定於燈帽24卜燈帽⑷係密合於管體2 ^卡合、螺合或熱炫合,於此,並不加以限制。由= 實知例之管體21之橫截面為封閉曲線,故再藉由電連接 兀件24與管體21密合,即可使光電裝置2具有良好的電 性絕緣及氣密性。 此外’凊餐照圖2C所示,光電裝置2更可包括一光 學結構25設置於管冑2卜於此,光學結構25係設置於管 體h之外表面212的出光側為例。當然,光學結構^也 又置於管體21之内表® 211或與管體21 -體成型。光 學結構25例如可為—透鏡、菱鏡、反射鏡或包含微結構, 且可依需求設計為聚集光線、或發散光線的功能。 —承上所述,因依據本發明之光電裝置2之管體21係 實^電性絕緣,且管體21之橫截面係呈封閉曲線。由 於s版21的材質為電性絕緣,故能確保使用者使用光電 裝,2時,不易有觸電的危險,因此,產品的安全性也容 易:合電子產品的安規。另外,橫截面呈封閉曲線之管體 21密合於二電連接元件24,使光電裝置2之氣密性良好, =氣或異物不易進入管體21内。此外,強化元件23係沿 官體^之長軸設置,並與管體21之外表面212連結。因 此藉由強化元件23的設置,使管體21不易因熱雁冷縮 而產生麵曲現象,可避免因管體21翹曲造成連結處不穩 固’而自燈具上掉落的現象。 。月參,¾圖3所示,其為另一態樣之光電裝置2a的分解 201200787 光電裝置2a與光電裝置2主要不同在於,光電單元 22a並不嵌合於管體21a,而是嵌合於管體的左右二側 之電連接元件24a的燈帽241a,因此管體21a的内壁上, 並/又有與光電單元22a配合的嵌槽。 除此,光電裝置2a其它元件可參照光電裝置2,於此 不再贅述。 口月參照圖4所示,其為另一態樣之光電裝置3的剖視 圖。光電m與光電裝置2主要不同在於,光電單元32 係為-太陽能電池^件,並例如以蒸鑛方式附著於管體” 之内表面3U。在本實施例中’光電褒置3之光電單元% 係為設置於管體31之内表面311的一層太陽能電池薄膜。 +特別說明的是,光電裝置3也可如圖2C所示之光電 裝置2 ’具有-光學結構,例如菲淫爾(如㈣)結構, 以聚集或發散光線。 此外,光電裝置3其它元件可參照光電裝置2,於此 不再贅述。 請參照圖5A及圖5B所示,其分別為另一態樣之光電 裝置4的分解圖及剖視圖。 光電裝置4與光電褒置2主要不同在於,光電裝置4 之光電單it 42係包含至少—螢光燈管421。於此,光電單 ^42係以包含^只螢光燈管(例如冷陰極螢光燈管)似 :例’且勞光燈官421為u型並分別位於管體41之左右 二半部,且分別固定於二固定 U夂το件422上,而固定元件422 刀職合於管體41。當然,固定元件似也可嵌合於電 201200787 連接元件441, 22、42的不同, 光電裝置4 述0 於此並不加以限制。當然,隨著光電單元 驅動電路板223、423亦不相同。 其它元件可參照光電裝置2,於此不再贅 此外’請參照圖6所干,i 1 s ^ 的分解圖。 斤不-為另一態樣之光電裝置5 且有置5與光電裝置2主要不同在於,光電單元5 元Γ3’其分別嵌合於管體51之外表面心 也可以其它方式與管體51連結,例如 更可八或扣合、或熱熔合。此外,強化元件53 埶續片,以^丄一、°構53卜放熱結構⑶例如包含散 :協助光電裝置5之散熱。藉由複數 的-置,亦可使管體51不易因熱漲冷縮 可避免因管體51翹曲m座生翹曲現象 落的現象。成連結處不_,而自燈具上掉 述。光電裝置5其它元件可參照光電裝置2,於此不再費 絕緣,且管體之…灣質 呂體之&截面係呈封閉曲線。另外,至 爾沿管體之長軸設置,並與管體之外表面連 ==^性絕緣’故能確保❹者使以電裝: 符合電子產、口ί險,因此,產品的安全性較佳也容; *規。另外,橫截面呈封閉曲線之管體! 肢兩端之二電連接元件密合,使光電裝置之_ 201200787 性良!,水氣或異物不易進人管體内。此外,藉由強化元 件與官體外表面連結,使管 相* 1 體不易因熱漲冷縮而產生翹曲 現象’可避免因管體㈣造 / ^ 占, 烕連結處不穩固,而自燈具上 ..土月之先電裝置具有良好安全性以 及虱役性,而且又可防止管體翹曲。 以上所述僅為舉他,而非為限制性者。任何未脫離 t發明之精神與㈣,㈣其進行之等效修改或變更,均 應包括於後附之申請專利範圍中。201200787. VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to an optoelectronic device, and more particularly to an optoelectronic device having a tube. [Prior Art] With the evolution of the times, optoelectronic devices have become one of the most indispensable electrical appliances in people's daily lives. Photoelectric devices can be mainly divided into light-emitting devices φ and power generating devices. In the current technology, most of the light-emitting devices are Hot Cathode Fluorescent Lamps (HCFLs) and Cold Cathode Fluorescent Lamps (CCFLs), and in recent years, LEDs have been gradually developed to emit LEDs. (Light-Emitting Diode, LED) is a light-emitting device of a light source, and a power generation device is mainly a solar cell (s〇lar cell) device. 1A and 1B, which are respectively an exploded view of a conventional cold cathode fluorescent lamp 1 and a cross-sectional view taken along line A-A of Fig. 1A. The cold cathode fluorescent lamp 1 comprises a tube 11, a U-shaped cold cathode fluorescent tube 12, a fixing member 13, a driving circuit board 14, and two electrical connecting members 15. The tube body 11 is made of a long strip and is at least partially permeable to light. The cold cathode fluorescent tube 12 is disposed in the tube body 11 and is disposed on a solid element 13 and electrically connected to the driving circuit board 14. The driving circuit board 14 is fitted to the fixing member 13 and can drive the cold cathode fluorescent lamp 12 to emit light. Further, the electrical connection elements 15 are disposed at both ends of the tube body 11, and are electrically connected to the cold cathode fluorescent lamp 12 and the driving circuit board 14, respectively. 201200787 However, 'the cold yakisaki light 1 may heat up and shrink due to changes in the ambient temperature, causing the tube u to be affected by gravity and causing a curvature of curvature', which may not be stable with the luminaire B. In severe cases, it may fall from the lamp B. Therefore, how to design an optoelectronic device to prevent the warpage of the tube body has gradually become one of the important topics. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide an optoelectronic device which is capable of preventing a tortuosity of a tube and having good safety and airtightness. To achieve the above object, an optoelectronic device according to the invention comprises a tube body, a photovoltaic unit and at least one reinforcing element. The tube system is substantially electrically characterized by a distance of 分 $ 透光 light transmission, and the body of the f body has a closed curve. Photoelectricity is placed in the tube early. The reinforcing element is disposed along the long axis of the tubular body and coupled to one of the outer surfaces of the tubular body. In one embodiment of the invention, the tube system is integrally formed or joined by a plurality of sub-portions. . In one embodiment of the invention, the photovoltaic unit comprises at least one light emitting diode, or at least a fluorescent tube, or at least an ultraviolet tube, or at least one solar cell element. In an embodiment of the invention, the photovoltaic unit is attached to the tubular body wall. 3 In one embodiment of the dance month, the 'reinforcing element' is manufactured by a dialing process or a soil. The material of the reinforcing element contains metal. The reinforcement component contains a cooling structure of 201200787. ^(d) - In the embodiment, the way in which the reinforcing member is connected to the tubular body is inconsistent, or bonded, or locked, or fastened, or thermally dazzled. As described above, the tube system of the photovoltaic device according to the present invention is substantially insulated: and the cross section of the tube body is closed. In addition, at least one of the reinforcing members is disposed along the long axis of the tubular body and coupled to the outer surface of the tubular body. Since the material of the f body is electrically insulated, it is possible to ensure that the user is less likely to be exposed to electricity when using the photovoltaic device. Therefore, the safety of the product is better and the safety of the electronic product is easily met. In addition, the tubular body plate having a closed cross section is provided at the two ends of the pipe body, and the two electrical connection elements are closely combined to make the photoelectric device have good airtightness. 'Water gas or foreign matter is not easily entered into the pipe body. In addition, by strengthening the connection between the element and the outer surface of the tube, the tube body is not easily caused by the thermal expansion and contraction, and the phenomenon that the joint is unstable due to the distortion of the tube body and the Luo is lost from the lamp can be avoided. Therefore, the photovoltaic device of the present invention has good safety and airtightness and prevents warpage of the pipe body. [Embodiment] Hereinafter, a photovoltaic device according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein the same elements will be described with the same reference numerals. 2A and 2B, which are respectively an exploded view and a cross-sectional view of a photovoltaic device 2 in accordance with a preferred embodiment of the present invention. The photovoltaic device 2 of the present invention is exemplified by an illumination device. Alternatively, the photovoltaic device 2 may be, for example, a power generation device (e.g., a solar cell) or other photovoltaic device. The optoelectronic device 2 comprises a tube body 21, a photovoltaic unit 22 and at least 201200787 a reinforcing element 23. The tubular body 21 is substantially electrically insulated (for example, made of glass or plastic) and is at least partially transparent. One of the tubular bodies 21 has a closed curve in cross section, wherein the closed curve refers to a curve at which the starting point and the ending point are at the same point. It can be round, round, or other shape. In this embodiment, the upper half of the tubular body 21 is made light. In other words, the light can be emitted from the upper half of the tubular body 21. Of course, the official body 21 can also be completely transparent. Further, as shown in Fig. 2B, the cross section of the tubular body u in the long axis direction is a closed curve, and the advantage of the closed curve is that the mechanical strength of the body 21 is better and it is less likely to be deformed by the torque (5) (8). The tubular body 21 may be integrally formed or may be formed by combining a plurality of sub-portions in a hot melt manner. In the present embodiment, the tubular body 21 is exemplified by a body molding process, and is manufactured by a process of injection molding or extrusion molding. The tubular body 21 is formed with a plurality of slots or tracks for integration with the photovoltaic unit 22 or the reinforcing member 23. The photovoltaic unit 22 is disposed in the tubular body 21, and is coupled to the tubular body 21, for example, in a fitting manner or in a tight fitting manner. This embodiment is exemplified by fitting. The optoelectronic unit 22 may, for example, comprise at least one light emitting diode, or at least one fluorescent lamp B or at least one external light tube, or at least one solar cell element (thin film type or concentrating type). In this embodiment, the photocell 22 may have at least one LED component 221 (package) disposed on a substrate 222, or may have at least one LED die set by wire bonding or flip chip bonding. On a substrate or lead frame. Here, an example in which the plurality of light-emitting diode elements 221 are provided on the substrate 222 will be described. The number and arrangement of the light emitting diode elements 221 are not limited. Here, the case where the plurality of light-emitting diode elements 221 are arranged on the substrate 222 in a one-dimensional linear row 201200787 row will be described as an example. Of course, the plurality of LED elements 221 can be arranged on the substrate 222 in a two-dimensional array according to the actual needs of the product. In this embodiment, the photovoltaic unit 22 can have, for example, a driving circuit board 223 disposed on the substrate 222 and disposed on a back surface 224 opposite to the LED body 221 . The driving circuit board 223 of this embodiment is disposed on the back surface 224 of the substrate 222, and the substrate 222 has a recessed groove, and the driving circuit board 223 is squashed with the substrate 222 as an example. The driving circuit board 223 ® is for driving the light emitting diode element 221 to emit light. At least one reinforcing element 23 is disposed along the long axis of the tubular body 21 and coupled to an outer surface 212 of the tubular body 21. The number of reinforcing elements 23 can be designed according to the actual needs of the product, and can be plural or one. In the present embodiment, a reinforcing member 23 is coupled to the outer surface 212 of the tubular body 21 as an example. The connection of the reinforcing member 23 to the tubular body 21 can be, for example, fitting, or bonding, or locking, or snapping, or heat fusion. Here, the tubular body 21 has a fitting groove and the reinforcing member 23 is coupled to the outer surface 212 of the tubular body 21 as an example. Further, the material of the reinforcing member 23 may include, for example, a metal, an alloy, or a ceramic. Herein, the reinforcing member 23 is exemplified by a metal, and the photovoltaic device 2 is further formed by an extrusion process or a stamping process. The electrical connection device 24 may further include at least one electrical connection member 24 disposed at one end of the tubular body 21 and coupled with the photoelectric device. The unit 22 is electrically connected. In the present embodiment, the two electrical connecting elements 24 are respectively connected to the two ends of the tubular body 21 and are in close contact with the tubular body 21 as an example. Among them, the Leiyuan and Baoxin money components 24 5 have a lamp cap 241 and a two-electrode joint 242, and the four electrode joints 242 201200787 are fixed to the lamp cap 24 and the lamp cap (4) is closely attached to the pipe body 2 ^ Engagement, screwing or heat-shrinking, here, is not limited. The cross section of the tubular body 21 of the known embodiment is a closed curve. Therefore, the electrical connection member 24 is closely adhered to the tubular body 21, so that the photovoltaic device 2 can have good electrical insulation and airtightness. Further, as shown in Fig. 2C, the photovoltaic device 2 may further include an optical structure 25 disposed on the tube 2, and the optical structure 25 being disposed on the light exiting surface of the outer surface 212 of the tube h. Of course, the optical structure is also placed inside the tube body 211 or formed integrally with the tube body 21. The optical structure 25 can be, for example, a lens, a mirror, a mirror, or a microstructure, and can be designed to concentrate light or diverge light as desired. - As described above, the tubular body 21 of the photovoltaic device 2 according to the present invention is electrically insulated, and the cross section of the tubular body 21 is closed. Since the material of s version 21 is electrically insulated, it can ensure that the user uses photoelectric equipment. When 2, there is no danger of electric shock. Therefore, the safety of the product is also easy: the safety of electronic products. Further, the tubular body 21 having a closed curve in cross section is in close contact with the two electrical connecting members 24, so that the gas-tightness of the photovoltaic device 2 is good, and it is difficult for the gas or foreign matter to enter the tubular body 21. Further, the reinforcing member 23 is disposed along the long axis of the body member and coupled to the outer surface 212 of the tubular body 21. Therefore, by the arrangement of the reinforcing member 23, the tubular body 21 is less likely to be deformed by the hot geese, and the phenomenon that the joint is unstable due to the warpage of the tubular body 21 can be prevented from falling off from the lamp. . The moon phase, as shown in FIG. 3, is another embodiment of the photovoltaic device 2a. The decomposition of the photovoltaic device 2a is mainly different from that of the photovoltaic device 2 in that the photovoltaic unit 22a is not fitted to the tubular body 21a but is fitted to The lamp caps 241a of the electrical connection elements 24a on the left and right sides of the tube body, and thus the inner wall of the tube body 21a, and/or the recesses that cooperate with the photovoltaic unit 22a. In addition, the other components of the photovoltaic device 2a can be referred to the photovoltaic device 2, and will not be described herein. The mouth month is shown in Fig. 4, which is a cross-sectional view of another embodiment of the photovoltaic device 3. The main difference between the optoelectronic m and the optoelectronic device 2 is that the photocell 32 is a solar cell and is attached to the inner surface 3U of the tube body, for example, by steaming. In the present embodiment, the photovoltaic unit of the photovoltaic device 3 % is a layer of solar cell film disposed on the inner surface 311 of the tube body. 3. In particular, the optoelectronic device 3 can also have an optical structure as shown in Fig. 2C, such as Philippine (4) Structure to gather or diverge light. In addition, other components of the optoelectronic device 3 can be referred to the optoelectronic device 2, and details are not described herein. Referring to FIG. 5A and FIG. 5B, respectively, the photovoltaic device 4 of another aspect is shown. The main difference between the optoelectronic device 4 and the photo-electric device 2 is that the photo-electric device 4 of the optoelectronic device 4 includes at least a fluorescent tube 421. Here, the photo-electric unit 42 includes a fluorescent device. The lamp tube (for example, a cold cathode fluorescent lamp) is similar to the example: and the lamp lighter 421 is u-shaped and is respectively located at the left and right halves of the pipe body 41, and is respectively fixed to the two fixed U夂το pieces 422, and The fixing member 422 is engaged in the body 41. Of course, The components may be similarly mounted to the electrical components of the 201200787 connecting elements 441, 22, 42. The photovoltaic device 4 is not limited thereto. Of course, the photovoltaic unit driving circuit boards 223, 423 are also different. Please refer to the optoelectronic device 2, and hereby no longer, please refer to FIG. 6 for an exploded view of i 1 s ^. The pulse is not another embodiment of the photovoltaic device 5 and the device 5 is mainly different from the photovoltaic device 2 The photocell 5 element 3' is respectively fitted to the outer surface of the tube 51, and may be connected to the tube 51 in other manners, for example, more than eight or snap-fit, or thermally fused. Further, the reinforcing element 53 is spliced. The heat dissipation structure (3) includes, for example, the dispersion: assists in the heat dissipation of the photovoltaic device 5. By the plural-position, the tube body 51 can be prevented from being cold-shrinked by the heat and can be avoided. The phenomenon of warping phenomenon occurs in the curved part of the block. The connection is not _, but is omitted from the luminaire. Other components of the photoelectric device 5 can refer to the photoelectric device 2, and no longer need to be insulated, and the tube body is... & section is a closed curve. In addition, the long axis along the pipe Set and connect with the outer surface of the pipe body ==^ insulation insulation, so it can ensure that the latter is equipped with electric equipment: It is in line with the electronic production and mouth insurance, therefore, the safety of the product is better; *. The tube with a closed cross section is closed! The two electrical connection elements at both ends of the limb are tightly combined to make the photoelectric device _ 201200787 good! Water vapor or foreign matter is not easy to enter the body. In addition, by strengthening the component and the external body The surface is connected so that the tube phase*1 body is not easily warped due to heat expansion and contraction. 'It can be avoided because the tube body (4) is made / ^ occupies, the 烕 joint is not stable, and the self-lighting device. It has good safety and servability, and it can prevent the tube from warping. The above is only for him, not for limitation. Any equivalent modifications or changes made without departing from the spirit of the invention and (4), (4) shall be included in the scope of the appended patent application.
【圖式簡單說明】 圖1 A及圖1 B分別兔习习A -£4r Λ 、 刎馮白知一種冷陰極螢光燈的分解圖 及名圖1A之直線A-A的剖視圖; 圖2A及圖2Bwj為本發明較佳實施例之—種光電裝 置的分解圖及剖視圖; 圖2C為本發明較佳實施例之光電農置具有光學結構 的剖視圖;以及BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A and FIG. 1B are respectively an abbreviated diagram of a cold cathode fluorescent lamp and a cross-sectional view of a straight line AA of the name 1A; FIG. 2A and FIG. 2A is an exploded view and a cross-sectional view of a photovoltaic device according to a preferred embodiment of the present invention; FIG. 2C is a cross-sectional view showing an optical structure of a photovoltaic farm according to a preferred embodiment of the present invention;
圖3至圖6為本發明較佳實施例之其他態樣的光電裝 置的示意圖。 【主要元件符號說明】 I :冷陰極螢光燈 II :管體 12 :冷陰極螢光燈管 13 :固定元件 201200787 14 :驅動電路板 15、24、24a、44、54 :電連接元件 2、2a、3、4、5:光電裝置 21、 21a、3卜 41、51 ··管體 211、212、311、312、411、412、511、512 :表面 22、 32、42、52 :光電單元 221、 521 :發光二極體元件 222、 522 :基板 223、 423、523 :驅動電路板 籲 224、 424、524 :背面 23、 33、43、53 :強 4匕元件 241、 241a、341、441、541 :燈帽 242、 442、542 :電極接頭 25 :光學結構 421 :燈管 422 :固定元件 鲁 531 :散熱結構 123 to 6 are schematic views of other embodiments of the photovoltaic device in accordance with a preferred embodiment of the present invention. [Description of main component symbols] I: Cold cathode fluorescent lamp II: Tube body 12: Cold cathode fluorescent lamp tube 13: Fixing element 201200787 14: Drive circuit board 15, 24, 24a, 44, 54: Electrical connection element 2 2a, 3, 4, 5: optoelectronic device 21, 21a, 3b 41, 51 · tube body 211, 212, 311, 312, 411, 412, 511, 512: surface 22, 32, 42, 52: photovoltaic unit 221, 521: light-emitting diode elements 222, 522: substrates 223, 423, 523: drive circuit board 224, 424, 524: back side 23, 33, 43, 53: strong 4 匕 elements 241, 241a, 341, 441 541: lamp cap 242, 442, 542: electrode connector 25: optical structure 421: lamp tube 422: fixing member Lu 531: heat dissipation structure 12