201228170 六、發明說明: 【發明所屬之技術領域】 本案係關於一種發光裝置’尤指一種可提高電氣安全性之 發光裝置。 【先前技術】 按以,與本案相關之先前公開技術,如TW 1244776「發 光裝置」’其揭示包括:複數個具有一發光二極體基座、金屬 散熱板以及至少一發光二極體發光單元之發光二極體模組,其 中每一發光二極體發光單元係具有複數個電氣連接端;該發光 二極體基座係承載該至少一發光二極體發光單元,該發光二極 體基座表面設有複數個對應電氣連結於該等電氣連結端的電 氣接點;該金屬散熱板係與該發光二極體基座相連接用以移 除該至少一發光二極體發光單元所產生的熱能;一定位單元, 其係包括:一具有複數個貫孔之定位板,且該等貫孔貫穿該定 位单元並谷置該發光一極體模組,以及一散熱單元,係與該等 發光二極體模組的各該金屬散熱板接觸,用以將該等金屬散熱 板所具有之熱能移除。其中該定位單元更包括一具有一電路圖 案之印刷電路板,該印刷電路板並夾置於該定位板與散熱單元 之間,該當該等發光二極體模組容置於該等貫孔後,該電路圖 樣係與位於該等發光二極體基座的該等電氣接點電氣連接。 上述公開技術,係運用複數個發光二極體模組予以整合, 但必須被集中安裝在间一片印刷電路板,以組構成一發光裝置 201228170 ’刖述同紐絲置和發絲置之間係沒有辦法進行串連運用 〇 有鑑於此,本案發明技術主要乃針對發光裳置可經由複數 個光學模_接成至少-排以上,再配接連—電源供應器以提 昇其電氣女全性’據此,該串接成排的複數光學模組便可__ 被分散安裝於各預定處,並且集中由電源供應器進行供電控制 ’以達到魏安全性高之技術創新設計,在完成本發明技術後 ,進一步提出本案之發明專利申請。 【發明内容】 本發明之主要目的,係提供—種發絲置,其包括:可將 内。又有發光—極體之複數光學模組由外部以電線或端子接 合方式予以快速_接成至少i以上,每—光學概於内部電 路層皆設有電流異常時自動靖電路的電流保險絲,並且使串 接成排的複數光學模組賴蝴構成並聯電路,形成一種低電 壓迴路,進而達到電氣安全性之提昇者。 本發明之另—目的’係提供—種發光裝置其在上述組裝 聯接成排的複數光學模組巾,於最前端連結有—電源供應器, 以供應所有光學模組之電力。 本發明之又-目的,係提供—種發絲置,包括:組裝成 複數排之光學模組’可經由一集線器作為橋接後,再與電源供 應器進行連結者。 為了達到上述目的,本發明提供一種發光裝置,包括:複 201228170 數個光學模組可以聯接成一排或複數排,該光學模組内部設有 電路層,該電路層設有一組電性輸入端、一組電性輸出端和複 數發光二極體,該複數發光二極體係組成電性串聯形態,而前 述該電性輸入端和電性輸出端各包含有一正極接口和一負極 接口,前述接口外接有連接元件,該連接元件可採用電線或端 子;據此’每一光學模組的正極接口可經由連接元件承接於另 -光學模組的正極接σ或電紅鋪σ,而貞極接叫樣係經 連接元件承接於前述另—絲漁的負極接Π或電源正極接 口’俾以達縣學触和光學触之間可經由料進行電性連 接’並且構造-種觸電路,轉成-種低電壓迴路者。 再者,本發明-種發光裝置,尚包括:一電源供應器,可 供聯接成排的光學她—端進行雜連接,以供應所有模組之 電力。 又者,本發明一種發光裝置,尚包括:一集線器,可介設 在電源供應器與複數模組之間,作為安裝橋接之用;該集線器 一端設有接頭,可供電源供應器進行電氣連接,另端自接頭分 接成並聯電路之魏轉σ,赌各_接賴的紐模組承接 ’前述於每一接口前端皆設有電流保險絲,以提昇使用安全性 0 【實施方式】 餘下,從再配合本發明各較佳實施例之圖式進一步說明如 后,以期能使熟悉本發明相關技術之人士,得依本說明書之陳 201228170 述據以實施:首先’敬請配合參閱第一至四圖所示,為本發明 一種發光裝置之較佳實施例,包括:一個以上的光學模組 ,可以聯接成一排或複數排,其中, 該光學模組ίο内部係設有一電路層u,該電路層u設 有一組電性輸入端12、一組電性輸出端13和複數發光二極體 14,該複數發光二極體14係組成電性串聯形態,而前述該電 性輸入端12和電性輪出端13各包含有一正極接口 121、131 和一負極接口 122、132,前述接口係對應承接有連接元件15 ,該連接元件15可為一種電線或一端子台或二端子台任一種 ,在本實施例該連接元件15係使用電線配合說明,形成每一 光學模組10皆具備四條電線,以便複數光學模組1〇進行聯接 接合; 另外要補充說明是,該電路層11係設在一基板16上,而 基板16相對於設置複數發光二極體14之外部罩設有一光學透 鏡17,該基板16於設置電路層11之端面係罩設有一外蓋18 ’該外蓋18設有穿孔181可供前述光學透鏡17 —出光端m 容套,並且在基板16與外蓋18之間,以及在光學透鏡17與 外蓋18之間皆設有防水元件19,使該光學模組1〇整體具備 防水功能供安裝於室内外使用;前述基板16在本實施例中為 一種尚導散熱的金屬基板,而基板16相對於設置電路層的 外端面,即基板16背面係直接曝露在光學模組1〇外部,形成 光學模組10外觀的一部分,具有降低成本的實質效益。 201228170 繼續’承上述,如第五、六圖所示,本發明在每一光學模 組10的正極接口 12卜131可經由連接元件15連接另一光學 模組10的正極接口 121、131或電源正極接口(圖中未示), 而負極接口 122、132同樣係經連接元件15連接前述另一光學 模組10的負極接口 122、132或電源正極接口(圖中未示), 俾以達到光學模組1G和光學模組1G之間可經由外部連接元件 15進行電性連接,並且構造一種並聯電路,以形成一種低電 壓迴路者。 再者,如第七圖所示,本發明一種發光裝置,尚包括:一 電源供應器20,可供複數聯接成排的光學模組1〇最前端進行 電性連接,以供應所有模組之電力;前述電源供應器2〇設有 一父流輸入端21供接設電源,和一直流輸出端22供前述光學 模組10連接者。 如第八、九圖所示,本發明一種發光裝置,更包括:一集 線器30,可介設在電源供應器20與複數模組10之間,作為 女裝橋接之用,該集線器30 —端至少設有一組接頭31,可供 電源供應器20進行電氣連接,另端自接頭31分接成並聯電路 之複數組接口 32,每一組接口 32皆包含有一正極接口 321和 一負極接口 322以供上述串接成排的光學模組1〇再分隔成複 數排成串的光學模組10進行承接’前述於每一組接口 32的前 端皆對應設有電流保險絲33,以提昇使用安全性。 值得強調說明的是,本發明使用之集線器3〇(Hub)至少設 201228170 有1至8組的接口 32,每—組接口 32提供-串接成排的光學 模組10連接,而前述每—串接成排係由1至12個光學模組 10所組成。 +上述集線器3G之接σ 32組數的限制,和串接成一排的光 學模組ίο數量_’皆係因為配合每—光學模組1()的輸入電 12 VDC ’光學模組1〇接設的連接元件15,即電線係使用 可承載5安培⑴的安全關,以及承接的電源供應諸,係 採用輸出神:240瓦(w)的規格等各觀素_定的,依前 述原則可進行數據和數值的比例縮放者。 紅上所陳,僅為本發明之一較佳實施例❿已,並非用來限 定本發明實施之範圍,即凡依本發明申請專利制所做之均等 變化與修飾’皆為本發明專利範圍所涵蓋。 【圖式簡單說明】 第一圖·本發明結構較佳實施例之發光裝置示意圖一。 第二圖:本發明結構較佳實施例之發光裝置示意圖二。 第二圖:為第一圖之A-A剖視圖。 第四圖.本發明結構較佳實施例之發光裝置内部電路層示意。 第五圖:本發明結構較佳實施例之兩發光裝置間電路連接示意 圖。 第六圖:本發明結構較佳實施例之複數發光裝置串接示意圖。 第七圖:本發明結構較佳實施例之發光裝置連接電源供應器之 示意圖。 8 201228170 第八圖:本發明結構較佳實施例之發光裝置配合集線器和電源 供應器之組合示意圖。 第九圖:本發明結構較佳實施例之集線器内部示意圖。 【主要元件符號說明】 光學模組—10 電路層-- ―-11 電性輸入端-12 正極接口 --121 負極接口 —122 電性輸出端-13 正極接口 --131 負極接口 -132 發光二極體-14 連接元件---15 基板 ---16 光學透鏡一17 出光端一 —171 外蓋—— ---18 穿孔一 ---181 防水元件一19 電源供應器-20 交流輸入端-21 直流輸出端_22 集線器-- ---30 接頭 ----31 接口 - 32 正極接口 一321 負極接口 --322 電流保險絲-33 9201228170 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a light-emitting device, particularly a light-emitting device which can improve electrical safety. [Prior Art] The prior art disclosed in connection with the present invention, such as TW 1244776 "Lighting device" discloses: a plurality of light emitting diode bases, metal heat sinks and at least one light emitting diode light emitting unit a light emitting diode module, wherein each of the light emitting diodes has a plurality of electrical connecting ends; the light emitting diode base carries the at least one light emitting diode light emitting unit, the light emitting diode base The surface of the seat is provided with a plurality of electrical contacts correspondingly electrically connected to the electrical connecting ends; the metal heat dissipating plate is connected to the LED base for removing the at least one light emitting diode unit The locating unit includes: a positioning plate having a plurality of through holes, and the through holes penetrating the positioning unit and arranging the light emitting body module, and a heat dissipating unit, and the illuminating unit The metal heat sinks of the diode module are in contact with each other for removing thermal energy from the metal heat sinks. The positioning unit further includes a printed circuit board having a circuit pattern, and the printed circuit board is sandwiched between the positioning board and the heat dissipation unit, and the light emitting diode modules are received in the through holes. The circuit pattern is electrically connected to the electrical contacts located on the base of the light emitting diodes. The above disclosed technology is integrated by using a plurality of light emitting diode modules, but must be centrally installed on a printed circuit board to form a light emitting device 201228170 'detailed between the wire and the hairline There is no way to carry out serial connection. In view of this, the invention technology of the present invention is mainly directed to a light-emitting device that can be connected to at least one row or more via a plurality of optical modes, and then connected to a power supply to enhance its electrical integrity. In this way, the plurality of optical modules connected in series can be arbitrarily installed at each predetermined place, and concentrated by the power supply for power supply control to achieve a technically innovative design with high security, and the technology of the present invention is completed. After that, the invention patent application of this case is further proposed. SUMMARY OF THE INVENTION A primary object of the present invention is to provide a hairline set that includes: can be placed inside. In addition, the plurality of optical modules of the illuminating-polar body are fast-connected by external wires or terminals, and are connected to at least i or more, and each of the optical circuits is provided with a current fuse of an automatic circuit when the current is abnormal, and The plurality of optical modules connected in series are arranged to form a parallel circuit to form a low-voltage circuit, thereby achieving an improvement in electrical safety. Another object of the present invention is to provide a light-emitting device in which a plurality of optical module towels are assembled and coupled in a row, and a power supply is connected at the foremost end to supply power to all of the optical modules. Still another object of the present invention is to provide a hairline arrangement comprising: an optical module assembled into a plurality of rows, which can be bridged by a hub and then coupled to a power supply. In order to achieve the above object, the present invention provides a light-emitting device, comprising: a plurality of optical modules of 201228170, which can be connected in a row or a plurality of rows, wherein the optical module is internally provided with a circuit layer, and the circuit layer is provided with a set of electrical input terminals, a plurality of electrical output terminals and a plurality of light emitting diodes, wherein the plurality of light emitting diode systems form an electrical series configuration, and the electrical input end and the electrical output end each comprise a positive electrode interface and a negative electrode interface, and the interface is externally connected There is a connecting component, the connecting component can adopt a wire or a terminal; accordingly, the positive terminal of each optical module can be connected to the positive pole σ or the electric red σ of the other optical module via the connecting component, and the bungee is called The sample system is connected to the negative electrode connection or the positive electrode interface of the wire-fishing through the connecting element, and the electrical connection between the touch and the optical contact can be electrically connected through the material and the structure-type touch circuit is converted into - A low voltage circuit. Furthermore, the light-emitting device of the present invention further comprises: a power supply for connecting the optical her-ends in a row to supply the power of all the modules. Moreover, the illuminating device of the present invention further includes: a hub disposed between the power supply and the plurality of modules for mounting the bridge; the hub is provided with a connector at one end for electrical connection of the power supply The other end of the self-connector is connected to the parallel circuit of the wei σ, gambling each of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Further description will be made in conjunction with the drawings of the preferred embodiments of the present invention, in order to enable those skilled in the related art of the present invention to implement the description according to the specification 201228170: First, please refer to the first to As shown in FIG. 4, a preferred embodiment of the present invention includes: one or more optical modules that can be coupled into a row or a plurality of rows, wherein the optical module is internally provided with a circuit layer u. The circuit layer u is provided with a set of electrical input terminals 12, a set of electrical output terminals 13 and a plurality of light-emitting diodes 14, and the plurality of light-emitting diodes 14 are electrically connected in series, and the foregoing The input terminal 12 and the electrical terminal 13 each include a positive interface 121, 131 and a negative interface 122, 132. The interface is connected to a connecting component 15 , which may be a wire or a terminal block or In the embodiment, the connecting component 15 is configured by using a wire, and each optical module 10 is provided with four wires, so that the plurality of optical modules 1 联接 are coupled and joined; The circuit layer 11 is disposed on a substrate 16 , and the substrate 16 is provided with an optical lens 17 opposite to the outer cover on which the plurality of LEDs 14 are disposed. The substrate 16 is provided with an outer cover 18 ′ at the end surface of the circuit layer 11 . The outer cover 18 is provided with a through hole 181 for receiving the optical lens 17 - the light emitting end m, and between the substrate 16 and the outer cover 18, and between the optical lens 17 and the outer cover 18, a waterproof member 19 is disposed. The optical module 1 is integrally provided with a waterproof function for installation indoors and outdoors; the substrate 16 is a metal substrate that is still heat-dissipating in the embodiment, and the substrate 16 is opposite to the outer end surface of the circuit layer. 16 based substrate back surface directly exposed 1〇 external optical module, the optical appearance of the module part 10 is formed, having a substantial cost reduction benefits. 201228170 continues the above, as shown in the fifth and sixth figures, the positive interface 12 131 of each optical module 10 can be connected to the positive interface 121, 131 or power supply of another optical module 10 via the connecting component 15 The positive electrode interface (not shown), and the negative electrode interfaces 122 and 132 are also connected to the negative electrode interface 122, 132 of the other optical module 10 or the positive electrode interface (not shown) via the connecting component 15 to achieve optical The module 1G and the optical module 1G can be electrically connected via an external connection element 15 and a parallel circuit is constructed to form a low voltage circuit. Furthermore, as shown in the seventh figure, a light-emitting device of the present invention further includes: a power supply 20 for electrically connecting the front ends of the plurality of optical modules 1 arranging in rows to supply all the modules. The power supply unit 2 is provided with a parent input terminal 21 for connecting power, and a DC output terminal 22 for connecting to the optical module 10. As shown in the eighth and ninth diagrams, a lighting device of the present invention further includes: a hub 30, which can be disposed between the power supply 20 and the plurality of modules 10 for use as a bridge for women, the hub 30 At least one set of connectors 31 is provided for electrical connection by the power supply 20, and the other end is tapped into a multi-array interface 32 of the parallel circuit from the connector 31. Each set of interfaces 32 includes a positive interface 321 and a negative interface 322. The optical module 1 for serially connecting the plurality of optical modules 1 is further divided into a plurality of optical modules 10 arranged in series to receive the current fuses 33 at the front ends of each of the sets of interfaces 32 to improve the safety of use. It should be emphasized that the hub used in the present invention has at least 201228170 with 1 to 8 sets of interfaces 32, and each set of interfaces 32 provides a series-connected optical module 10 in series, and each of the foregoing The serial connection is composed of 1 to 12 optical modules 10. +The limitation of the number of sigma 32 groups of the above hub 3G, and the number of optical modules connected in series to each other _' are all due to the input of each optical module 1 () 12 VDC 'optical module 1 〇 The connecting element 15, that is, the electric wire is used to carry the safety of 5 amps (1), and the power supply to be received, is based on the output god: 240 watts (w) specifications, etc., according to the foregoing principles Scale the data and values. The present invention is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the equivalent variations and modifications made by the patent application system of the present invention are the scope of the invention. Covered. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a first schematic view of a light-emitting device of a preferred embodiment of the present invention. Second: FIG. 2 is a schematic diagram of a light-emitting device according to a preferred embodiment of the present invention. Second picture: A-A cross-sectional view of the first figure. Fig. 4 is a schematic view showing the internal circuit layer of the light-emitting device of the preferred embodiment of the present invention. Fig. 5 is a schematic view showing the circuit connection between two light-emitting devices of a preferred embodiment of the present invention. Figure 6 is a schematic view showing the serial connection of a plurality of light-emitting devices according to a preferred embodiment of the present invention. Figure 7 is a schematic view showing the connection of a power supply device to a light-emitting device of a preferred embodiment of the present invention. 8 201228170 FIG. 8 is a schematic diagram showing the combination of a light-emitting device according to a preferred embodiment of the present invention and a hub and a power supply. Figure 9 is a schematic illustration of the internal interior of a hub in accordance with a preferred embodiment of the present invention. [Main component symbol description] Optical module - 10 circuit layer -- ― -11 Electrical input terminal -12 Positive interface - 121 Negative interface - 122 Electrical output - 13 Positive interface - 131 Negative interface - 132 Polar Body-14 Connecting Element---15 Substrate---16 Optical Lens-17 Light-emitting End One-171 Cover----18 Perforation---181 Waterproof Element-19 Power Supply-20 AC Input -21 DC Output Terminal_22 Hub-- ---30 Connector----31 Interface - 32 Positive Interface - 321 Negative Interface --322 Current Fuse -33 9