M310485 八、新型說明: 【新型所屬之技術領域】 本創作係提供一種發光二極體與支架間利用結合處變 形且免高熱焊接即可達到相互連接及電導通的連接裝置。 【先前技術】 在目前現有各式各樣產品中均運用有發光二極體,其 主要係由於發光二極體具有低温、低耗電量等特性,可廣 泛應用於照明燈具,或者電子產品的顯示燈,發光二極^ 的型式,是在透明的封膠體内部包覆晶粒,以及設有向下 延伸的接腳,藉接腳插置於電路板的穿孔,再以焊錫方式 將接腳固^於電路板上,但此組裝方式,在焊接過程中: 利用高熱將焊料加熱後與接腳連接,故會發生晶粒遭到燒 一肌穴电給极的万式,是將發光 極體的兩接腳弯折成九十度’再以點烊方式分別焊接於 金屬連接板上’透過金屬連接板另侧所設的接腳插置於 :板上’其組裝方式’點焊時所產生的高溫高熱亦極可 “吏發光二極體内部所設的晶粒受損,因此,前述的二 方式均會使得產品的良率 確實為現有產品在製造過= 降低,造成成本的增加 衣4%中的明顯缺點。 【新型内容】 本創作者為解決現有枯种 路板間的結合時所存在的問顏進行發光二極體與相對< 光二極體與電路板之支架間而予'重新設計,即藉由^ '、Β 1用材料變形的技術手段,4 M310485 二者可相互結合固定為其創作目的。 為了可達到前述的創作目的,本創作所運用的技術手 丰又在於長:供種發光二極體與支架的連接裝置,其中設置 在電路板上的支架,其具有與不同極性線路連接的第一及 一支木,於各支架上形成有突柱且突柱以模具成型為中空 柱體,發光二極體的二導片分別相對前述的突柱,各導片 上没有固定孔可供突柱貫穿,並在使突柱端頭變形擴大形 成鉚合部使二者相互結合固定。 藉由前述技術手段的實施,本創作將發光二極體與電 路板上的支架係利用材料的變形及擴大,而使二者相互固 疋連接並達到導電效果,在生產速度上可明顯提升,又由 於不需使咼熱的焊接方式,因而不致破壞發光二極體,以 減少損壞率。 【實施方式】 參看第一圖所示,本創作所設計的發光二極體與支架 的連接裝置,其中發光二極體(10)係設在電路板(3〇)上的 相對支架(20)(30)上,並相互形成電導通,前述旳電路板 (40)係為一板狀並在板面設有可供不同極性連接導通的線 路,於線路上則設有穿孔(41),另於其二端分別設^連接 用的接頭(42)。 前述的發光二極體(10),於其二側延伸出有二導片(1丄) 並在導片(11)上設有固定孔(12),另在前述電路板上 設有為導體且呈薄片狀的第一支架(20)盘第-士 + 、示—支架(30), 配合參看第二及三圖所示,以第一支架(2〇)而士 、 ° ’於其上 M310485 成型有直立突出的突柱(21),其成型可用模具衝壓呈片狀 的支架而在支架上形成有中空柱體,又於其侧邊形成有端 子(22)’該端子(22)可穿設在電路板(40)相對的穿孔(41) 内,並使其與線路相互連接導通,另第二支架(3〇)亦相同 成型有直立突出且為中空狀的突柱(31),並可利用所設的 端子與電路板的線路連接,以使第一支架(2〇)與第二支架 (30)可提供有不同二極性的導體。 配合參看第四及五圖所示,可將發光二極體(1〇)的二 導片(11)分別相對於第一、二支架(20)(30)所形成的中空 犬柱(21)(31)處’且導片(η)上所設的固定孔(I?)可穿套 在中空突柱(21)(31)上,並使突柱(21)(31)突出,再利用 外力擠壓犬柱(21)(31)的突出端,進而使該處的片材產生 變形擴大,而形成為一鉚合部(211)(311),此時鉚合部 (211)(311)即可將發光二極體(ι〇)的二不同電極的導片 (11)與第一、二支架(2〇)(3〇)相互連接導通。 【圖式簡單說明】 第一圖係本創作實施例的部份分解圖。 第二及三圖係本創作的發光二極體與支架的剖面示意 圖。 第四圖係本創作發光二極體與支架結合前的示意圖。 第五圖係本創作發光二極體與支架結合後的示意圖。 【主要元件符號說明】 (1〇)發光二極體 (π)導片 (12)固定孔 (20)第一支架 M310485 (21) 突柱 (22) 端子 (31)突柱 (40)電路板 (42)接頭 (211)鉚合部 (30)第二支架 (311)鉚合部 (41)穿孔M310485 VIII. New description: [New technical field] The creation system provides a connection device between the light-emitting diode and the bracket, which can be connected to each other and electrically connected without high heat welding. [Prior Art] In the current various products, LEDs are used, which are mainly used in lighting fixtures or electronic products because of their low temperature and low power consumption. The display lamp, the type of the light-emitting diode, is covered in the transparent sealing body, and has a downwardly extending pin, the pin is inserted into the perforation of the circuit board, and the pin is soldered. Solid on the circuit board, but this assembly method, in the welding process: the high heat is used to heat the solder and connect with the pins, so the crystal grains will be burned by a muscle hole, and the illuminating pole will be The two legs of the body are bent into ninety degrees and then soldered to the metal connecting plate in a point-and-click manner. The pins provided on the other side of the metal connecting plate are inserted on the board: the 'assembly method' is spot welding. The high temperature and high heat generated can also be extremely "damaged by the crystals inside the luminescent diode. Therefore, the above two methods will make the yield of the product indeed reduce the existing product, resulting in an increase in cost. A clear disadvantage in 4% of clothing. [New content] The creator has redesigned the light-emitting diode and the relative light-diode and the support of the circuit board in order to solve the problem of the combination of the existing dry road plates. ^ ', Β 1 using the technical means of material deformation, 4 M310485 can be combined with each other for their creative purposes. In order to achieve the above-mentioned creative purposes, the technique used in this creation is also long: for the light-emitting diode a connecting device of the body and the bracket, wherein the bracket disposed on the circuit board has the first and the first wood connected to the different polarity lines, the protruding pillar is formed on each bracket, and the protruding pillar is formed into a hollow cylinder by a mold. The two guiding pieces of the light-emitting diode are respectively opposite to the above-mentioned protruding columns, and there is no fixing hole on each of the guiding pieces for the protruding column to penetrate, and the protruding end of the protruding column is deformed to form a riveting portion so that the two are combined with each other. The implementation of the technical means, the creation of the light-emitting diode and the support on the circuit board using the deformation and expansion of the material, so that the two solidly connected to each other and achieve a conductive effect, in the production speed can be obvious l, because there is no need to make the hot welding method, so as not to damage the light-emitting diode to reduce the damage rate. [Embodiment] Referring to the first figure, the design of the light-emitting diode and the bracket connection The device, wherein the light emitting diodes (10) are disposed on the opposite brackets (20) (30) on the circuit board (3) and electrically connected to each other, and the front circuit board (40) is a plate and A circuit for connecting different polarity connections is provided on the board surface, and a through hole (41) is arranged on the line, and a joint (42) for connecting is respectively provided at the two ends. The foregoing light emitting diode (10) Two guide pieces (1丄) are extended on two sides thereof, and fixing holes (12) are arranged on the guide piece (11), and a first bracket which is a conductor and is in the form of a sheet is provided on the circuit board ( 20) Disc-shishi +, indicating-bracket (30), with reference to the second and third figures, with the first bracket (2〇), and the 'M310485 on it, there is a protruding pillar protruding upwards ( 21), the molding can be stamped into a sheet-like bracket by a mold, and a hollow cylinder is formed on the bracket, and a side is formed on the side thereof. The terminal (22)' can be disposed in the opposite hole (41) of the circuit board (40) and connected to the line, and the second bracket (3) is also formed with the upright protrusion. It is a hollow-shaped stud (31) and can be connected to the circuit board by using the provided terminals, so that the first bracket (2〇) and the second bracket (30) can be provided with conductors having different polarities. Referring to the fourth and fifth figures, the two guide pieces (11) of the light-emitting diode (1) can be respectively formed with respect to the hollow dog column (21) formed by the first and second brackets (20) (30). (31) and the fixing hole (I?) provided on the guide piece (η) can be put on the hollow protrusion (21) (31), and the protrusion (21) (31) is protruded and reused. The external force squeezes the protruding end of the dog column (21) (31), thereby causing the sheet at that portion to be deformed and expanded, and is formed into a riveting portion (211) (311), and at this time, the riveting portion (211) (311) The guide piece (11) of the two different electrodes of the light-emitting diode (ι) can be connected to the first and second brackets (2〇) (3〇). BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a partial exploded view of the present embodiment. The second and third figures are schematic cross-sectional views of the light-emitting diode and the stent of the present invention. The fourth figure is a schematic diagram of the present invention before the combination of the light-emitting diode and the bracket. The fifth figure is a schematic diagram of the combination of the present light-emitting diode and the bracket. [Main component symbol description] (1〇) LED (π) guide (12) fixing hole (20) First bracket M310485 (21) Stud (22) Terminal (31) Stud (40) Circuit board (42) Joint (211) rivet (30) second bracket (311) rivet (41) perforated