九、發明說明: 【發明所屬之技術領域】 本發明係關於一種光源結構友其使用之光源結構絕緣 使用之系有關於一種背光敝^ 【先前技術】 由於液晶顯示面板(LCDPanel)厚度薄、質量輕且攜帶方 便’相較CRT騎n具有健射的伽,使得料來的需求 更决速增加特別疋背光模组Module)為液晶顯干而 板的關鍵性零組件之—。隨著液晶顯示器製造技術的提 先核組更躺輕量化、薄聽、健電、高亮度及降低成本的 市場方向發展。為簡液晶顯示ϋ未來市場的解力,開發盘 »又《十更優質的背光模組及更加綱的製造技術,是未來需要不 斷努力的方向。 早期液晶顯示面板主要細在監視!^⑦施動)、筆 記型電腦(Note Book)及數位相機(DC)等尺寸較小的電子產 品上。背紐_以側光式f祕組(Side Edge歸响IX. Description of the Invention: [Technical Field] The present invention relates to a light source structure, which is used for light source structure insulation, and relates to a backlight 敝^ [Prior Art] Due to the thin thickness and quality of the liquid crystal display panel (LCDPanel) Light and easy to carry 'Compared with the CRT riding n has a healthy gamma, so that the demand for the material is more rapid increase, especially the backlight module Module) is the key component of the liquid crystal display and the board. With the advancement of the liquid crystal display manufacturing technology, the nuclear group has developed a market direction of lighter weight, thinner listening, health, high brightness and lower cost. In order to simplify the liquid crystal display, the future market's solution, the development disk » and "ten better backlight module and more comprehensive manufacturing technology, is the direction that will require unremitting efforts in the future. Early LCD panels were mainly used for small-sized electronic products such as surveillance, ^7 actuation, notebooks (Note Book) and digital cameras (DC). Back button _ with side-light f secret group (Side Edge is returned
Module)為技術主流,其特性為重量輕、體積小及厚度薄。相 較於現今大舰·示面板的需求與日遽增,其產品要求則必 須有足夠的顯像亮度、寬廣的觀看視角、鮮明的顯像對比以及 合乎標準的使用壽命#需求^直下式背光模組⑽馳Module) is the mainstream of technology and its characteristics are light weight, small size and thin thickness. Compared with the demand for today's large ships and display panels, the product requirements must have sufficient development brightness, wide viewing angle, vivid image contrast and standard service life. Module (10)
BackhghtModule)的技術,將逐漸成為液晶顯示面板的技術主 流。 如圖1解’㈣現今直下式背光·之光源結構部分 1330291BackhghtModule technology will gradually become the main technology of LCD panels. Figure 1 solution '(4) Today's direct-lit backlight · Light source structure part 1330291
立體示意圖。習知背光模組之光源結構〗〇主要係由燈管14及 ,官套16結合而成,並依序擺設於背板之内壁上。藉由燈 管14兩側的燈官導絲is與接地銅片2〇的接觸形成低壓焊接 導通而發光。其t,由於燈管導絲18與金輕之雜12内壁 間必須存在-定的安全顏面距離,否則容易產生俗稱「跳幻 而造成損毁。因此,習知技術通常會在接地銅# 2〇與背板U 之間增設絕緣材料22,請同時參考圖2所示。此外,為了製 餘裝之制性’淑絲崎此騎材料22時,會在絕緣 材料22的上下兩表面,分別黏性具黏性材質^(如雙面膠 等)。模組敍下科,即可與上下觸之接義片以及Stereoscopic view. The light source structure of the conventional backlight module is mainly composed of a combination of a lamp tube 14 and an official sleeve 16, and is sequentially disposed on the inner wall of the back plate. The low-voltage soldering conduction is formed by the contact of the lamp guide wire is on both sides of the lamp tube 14 with the grounding copper piece 2 turns to emit light. The t, because the lamp guide wire 18 and the inner wall of the gold light must have a certain safe face distance, otherwise it is easy to produce the common name "jumping and causing damage. Therefore, the conventional technology will usually be in the grounding copper # 2〇 Adding an insulating material 22 to the backing plate U, please refer to FIG. 2 at the same time. In addition, in order to make the manufacturing property of the shackle, the material of the slab is to be adhered to the upper and lower surfaces of the insulating material 22, respectively. Viscous material ^ (such as double-sided tape), the module can be used to connect with the upper and lower touches and
習知技術為了增加此安全顏面距離,以絕緣材料22应兩 =材質24墊高及黏接燈管導絲18射板12壁面,不僅使 無補& ’更無法有效降低縣。基此,在競爭激烈 太盘^ 除了翻所需產品的品倾魏外,有效地控制成 lit 未來增加液晶顯示面板發展性與競爭力的 【發明内容】 一種光源結構,具有較少的 本發明之主要目的在於提供 組裝零組件數。 本發明之主要目 組裝速率。 的在於提供一種光源結構 ’具有較高的 本發明之另一 低產品成本。 目的在於提供一種光源結構,具有效的降 一種背光模組之燈管結構 本發明之主要目的在於提供 具有較少的組裝零組件數。 具有的在於提供一種背光模組之燈管結構’ 本U之轉目的在於提供—種與背光模組之背板 女全顏面距離的絕緣件。 本發明之目的在於提供光模組之燈管結構, 具有效的降低產品成本。 本發明之光源結構係由發光光源及絕緣件組裝而成,並 與導體健焊接而電性導通。其中發光光源之兩端部各設有導 絲’而絕緣件則具有本體、轉孔及支禮面,_孔係沿-延 伸方向貫穿本體’支撐面係設置於導絲孔之—端,且延續導絲 孔之延伸方向分佈。導體係設置於支撐面上,其中導絲孔供導 絲插接,並與導體形成電性連接。 在較佳實施例中’絕緣件較佳係設置一個導絲孔’並供一 根發光光源插接。導絲孔係連通本體之内側及外側,使發光光 源之導絲插接其中。絕緣件之外側較佳更形成有一定高度之凸 出部,而支撐面則設置在凸出部上。當此具凸出部之絕緣件設 置於背板内壁時,分別與導體和背板内壁間之距離,形成安全 顏面距離。 本發明另一較佳實施例中,絕緣件較佳係設置至少一組以 上之導絲孔,供至少一組以上之發光光源組裝。導絲孔除了連 通絕緣件之内侧及外側外,導絲孔更具有從本體上方連通至導 絲孔的間隙。因此,當發光光源組裝於導絲孔時,導絲可以直 接由上方之方向組裝於絕緣件,並從間隙進入導絲孔,以便利 於模組廠之組裝作業。 【實施方式】· 及#冑可減少零赠及料組斜狀光源結構 ’知!構之絕緣件。雜佳實猶㈣言,此光源結構 作為★光模組之光源結構,且較佳係應用在液晶顯 上使用然而在不同實施例中,此光源結構亦可在看 平板顯Μ及其他大型平面光源之裝置使用。以下即配合 所附圖式,進—步說明本發明之各具體實施例及其步驟·· 如圖3或圖4所示,光源結構1〇〇係由發光光源12〇及 、’件104組裝而成,並與導體13〇低壓焊接而電性導通。其 ’發光絲12G之兩端部分別設有^^ 122,導絲122供與 、,130接觸。在如圖4所示之實施例巾,絕緣件⑽較佳係 以背板102之左右兩定位凸肋142所定位。然而在不同的實施 例中’可以用如設置定位孔的方式定位絕緣件1〇4。此外,在 ^發明之光源結構刚係與背板側壁14〇間隔適當距離設置。 母光源I。構100根據背光模組之尺寸大小以一定數量且依 序擺放在背板102之内壁上。 又’例如圖3或圖4所示之較佳實施例中,發光光源120 較佳為冷陰極縣燈管(GGFL)。然而科同的實施例中,發光 光源120亦可為加入如氦氣(Xe)或水銀的冷陰極螢光燈管或 使用一般的日光燈等。此外,導體13〇較佳為銅片、銅合金或 其它具導電性之金屬或其合金。 在如圖5所示之實施例中,絕緣件1〇4進一步具有本體 106、導絲孔108及支撐面110。本體106具有内、外側112、 114。導絲孔1〇8係沿一延伸方向貫穿本體⑽ 中二此延伸方向較佳係貫穿内、外船12、114。支== ⑽之—端,且延續導絲孔⑽之延伸方向分 圖二:實=本_ 係形成於_"6之上 低於導絲孔108之下緣位置,或者是與導絲孔⑽之下緣齊 平。其中’凸出部116較佳具有一定高度,一般為3〜4麵二 即所謂的安全顏面間距。此高度可避免導絲122與金屬製之背 板内壁因距離太近而產生跳火,使相關零組件損毀。 丄由於支撐© 110係直接成形於本體1〇6之外側ιΐ4上。 換言之’凸出部116較佳係與本體1〇6 一體射出成形。然而在 不同的實施例巾,凸出部116亦可祕接的方式連接於本體 106之外側114上’且向度得視狀況加以調整。另外,支广面 110之尺寸亦可視導體伽之寬度而相對應設置。在較佳^ 流程中’當發光統120之導絲122插接於絕緣件1〇4後,導 體130才置放至絕緣件104之支撐面11〇上,如圖4所示。因 此,當導體130置放於絕緣件1〇4之支樓面11〇時,導體⑽ 較佳係與支撐面110及伸出的導絲122形成干涉而定位於其 中。此外,導絲122與導體13〇低塵烊接後,產生穩 性導通。 如圖6所示’為本發明另一較佳實施例圖。光源結構ι〇〇 亦由發光光源120及絕緣件1Q4組裝而成’並與導體13〇焊接 而電性導通。其中,發光光源12Q分別於發光光源⑽之 部設有導絲122 ’導絲122供與導體130接觸。在如圖6所示 的較佳實施例中,絕緣件104較佳係包含兩個導絲孔1〇8,並 供兩個發光光源120組裝使用。顯而易見地,發光光源12〇組 裝時,必須從絕緣件104之侧向插接於導絲孔1〇8中。然而在 不同的實施例中,例如圖7所示,導絲孔ι〇8更具有從絕緣件 104上方連通至導絲孔log的間隙IQ?。因此,發光光源eg 之導絲122得以從上方組裝於絕緣件1〇4之導絲孔1〇8中。此 外,單一絕緣件104上不限於僅設有單一或兩個導絲孔1〇8 ; 在其它不_實施例巾’更可包含設置複數個以上之導絲孔 108。 在此需說明的是,本發明之絕緣件1〇4材質較佳為一符 合UL安規之防火/耐熱等級之塑膠材料。此具有適當塑性或彈 性的絕緣件104 ’不論在組裝發光光源12G之導絲122或是定 位絕緣件H)4騎板102上,均十分容易。其中,關於定位絕 緣件104之方式’在如圖7所示之較佳實施例中,係以絕緣件 104下方之定位部如虛線所示之形狀)與相對應之背板孔 洞(圖未繪示)卡合以完成定位。 在如圖6或7所不之實施例中,發光光源⑽較佳為冷 陰極螢光燈官(cm)。然不同的實施例巾,發光光源12〇 亦可為加入如氦氣(Xe)或水銀的冷陰極螢光燈管或使用一般 =曰光燈等。導體⑽較佳則為銅片或具有銅金屬之合金。其 中’為了增蝴_絲讀繼,在 於支擇面η卜側進-步設置擋請,供定位導體^ 目對位置。此外’導體13〇 一端較佳則具有彎折部132,供 扣住絕緣件104之凸出部116。 清同時參考如圖8所示,為本發明絕緣件之另一較佳實 1330291 . 施例之剖視圖。此一較佳實施例與如圖5所示之實施例中,不 . ㈤處在於絕緣件1G4包含至少-間隙而。其它結構則同如圖 • 5之實施例所述’在此不再贅述。請同時參考如圖6所示,間 隙107係成形在絕緣件1〇4上方並連通至導絲孔間隙i〇7 之寬度小於導絲孔108餘,但與導絲122之餘相似,主 係供導絲122由上組裝之用。 因此,在組裝流程中,發光光源120之導絲122較佳係 可便利地由上而下之方向組裳於導絲孔1〇8中。也就是說,藉 籲 由間隙107之設計,使组裝人員組裝發光光源120於絕緣件 104上更為便利方便,且能有效節省工時。 本發明已由上述相關實施例加以描述,然而上述實施例僅 為實施本發明之範例。必需指出的是,已揭露之實施例並未限 制本發明之範圍。相反地,包含於申請專利範圍之精神及範圍 之修改及轉設置均包含於本發明之範圍内。 【圖式簡單說明】 ί 圖1為先讀藝巾之部分背光齡之絲結構立體圖; 圖2為圖1之燈管組装分解圖; G 3為本發明光源結構之第—較佳實施例圖; . _ 4為圖3組裂於背光模組之組立圖; 目5為本發明第-較佳實施例巾之絕緣件剖視圖; 圖6為本發明光源結構之第二較佳實施例圖; 圖7為圖6組裳於背光模組之組立圖;及 Θ 8為本發明第二較佳實施例之絕緣件之剖視圖。In order to increase the distance of the safe face, the conventional material 22 should be made of two materials, material material 24, and the wall of the light guide tube 18, which not only makes the no-fill & Therefore, in the fierce competition, in addition to the product of the desired product, it is effectively controlled to increase the development and competitiveness of the liquid crystal display panel in the future. [Invention] A light source structure has fewer inventions. The main purpose is to provide the number of assembled components. The primary assembly rate of the present invention. It is to provide a light source structure' which has a higher low product cost of the present invention. SUMMARY OF THE INVENTION It is an object of the present invention to provide a light source structure that is effective in reducing the number of assembled components. The utility model relates to a lamp tube structure for providing a backlight module. The purpose of the U is to provide an insulating member which is different from the back surface of the backlight module. The object of the present invention is to provide a lamp tube structure of an optical module, which can effectively reduce product cost. The light source structure of the present invention is assembled by an illuminating light source and an insulating member, and is electrically connected to the conductor and electrically connected. Wherein the two ends of the illuminating light source are respectively provided with a guide wire ′, and the insulating member has a body, a rotating hole and a supporting surface, and the _ hole is arranged in the extending direction through the body, and the supporting surface is disposed at the end of the guiding wire hole, and The extension direction of the guide wire hole is continued. The guiding system is disposed on the supporting surface, wherein the guide wire hole is inserted into the wire and electrically connected to the conductor. In the preferred embodiment, the 'insulating member is preferably provided with a guide wire hole' and is inserted into a light source. The guide wire holes are connected to the inner side and the outer side of the body, so that the guide wire of the light source is inserted therein. Preferably, the outer side of the insulating member is formed with a projection of a certain height, and the support surface is disposed on the projection. When the insulating member having the protruding portion is disposed on the inner wall of the backing plate, the distance between the conductor and the inner wall of the backing plate respectively forms a safe face distance. In another preferred embodiment of the invention, the insulating member is preferably provided with at least one set of guide wire holes for assembly of at least one or more of the illuminating light sources. In addition to the inner and outer sides of the insulating member, the guide wire hole has a gap communicating from above the body to the guide hole. Therefore, when the illuminating light source is assembled in the guide wire hole, the guide wire can be directly assembled to the insulating member from the upper direction and enter the guide wire hole from the gap to facilitate the assembly work of the module factory. [Embodiment] · and #胄 can reduce the structure of the oblique light source of the zero gift and material group. The light source structure is used as the light source structure of the light module, and is preferably applied to the liquid crystal display. However, in different embodiments, the light source structure can also be used to see the flat panel display and other large planes. The device of the light source is used. Hereinafter, the specific embodiments of the present invention and the steps thereof will be further described with reference to the accompanying drawings. As shown in FIG. 3 or FIG. 4, the light source structure 1 is assembled by the illuminating light source 12 and the 'piece 104. It is formed and electrically connected to the conductor 13〇 under low voltage. The ends of the 'illuminated filaments 12G' are respectively provided with ^^122, and the guide wires 122 are in contact with the 130. In the embodiment shown in Fig. 4, the insulating member (10) is preferably positioned by the left and right positioning ribs 142 of the backing plate 102. However, in different embodiments, the insulating member 1〇4 can be positioned in such a manner as to provide a positioning hole. In addition, the light source structure of the invention is arranged at an appropriate distance from the back side wall 14〇. Mother light source I. The structure 100 is placed on the inner wall of the backboard 102 in a certain amount and in order according to the size of the backlight module. Further, for example, in the preferred embodiment shown in Fig. 3 or Fig. 4, the illuminating light source 120 is preferably a cold cathode lamp (GGFL). However, in the embodiment, the illuminating light source 120 may be a cold cathode fluorescent lamp such as xenon (Xe) or mercury, or a general fluorescent lamp or the like. Further, the conductor 13 is preferably a copper sheet, a copper alloy or other electrically conductive metal or an alloy thereof. In the embodiment shown in Fig. 5, the insulating member 1 4 further has a body 106, a guide wire hole 108 and a support surface 110. The body 106 has inner and outer sides 112, 114. The guide wire holes 1〇8 extend through the body (10) in an extending direction, and the extending direction preferably extends through the inner and outer ships 12 and 114. The end of the branch == (10), and the extension direction of the guide wire hole (10) is divided into two parts: the true = the present _ is formed on the _"6 below the position of the lower edge of the guide wire hole 108, or with the guide wire The lower edge of the hole (10) is flush. Wherein the projections 116 preferably have a certain height, typically 3 to 4 faces, the so-called safe face spacing. This height prevents the guide wire 122 from being caught too close to the inner wall of the metal back plate, causing the related components to be damaged.丄Because the support © 110 is directly formed on the outer side of the body 1〇6. In other words, the projections 116 are preferably integrally formed with the body 1〇6. However, in different embodiments, the projections 116 can also be attached to the outer side 114 of the body 106 in a manner that is secretly attached and adjusted in accordance with the condition. In addition, the size of the wide-surfaced surface 110 can also be set correspondingly to the width of the conductor gamma. In the preferred embodiment, after the guide wire 122 of the illumination system 120 is inserted into the insulating member 1〇4, the conductor 130 is placed on the support surface 11〇 of the insulating member 104, as shown in FIG. Therefore, when the conductor 130 is placed on the support floor 11 of the insulating member 1〇4, the conductor (10) preferably interferes with the support surface 110 and the protruding guide wire 122 to be positioned therein. In addition, after the guide wire 122 and the conductor 13 are low-dust connected, a stable conduction is generated. Figure 6 is a view of another preferred embodiment of the present invention. The light source structure ι is also assembled by the illuminating light source 120 and the insulating member 1Q4 and is electrically connected to the conductor 13 〇. The illuminating light source 12Q is respectively provided with a guide wire 122' guide wire 122 at a portion of the illuminating light source (10) for contacting the conductor 130. In the preferred embodiment shown in Fig. 6, the insulating member 104 preferably includes two guide wire apertures 〇8 for use in assembling the two illuminating light sources 120. Obviously, when the illuminating light source 12 is assembled, it must be inserted into the guide wire hole 1 〇 8 from the side of the insulating member 104. However, in various embodiments, such as shown in Fig. 7, the guide wire aperture ι 8 further has a gap IQ? that communicates from above the insulator 104 to the guide wire aperture log. Therefore, the guide wire 122 of the illuminating light source eg is assembled from the wire guide hole 1 〇 8 of the insulating member 1 从 4 from above. Further, the single insulating member 104 is not limited to being provided with only a single or two guide wire holes 1〇8; in other embodiments, the plurality of guide wire holes 108 may be further included. It should be noted that the material of the insulating member 1〇4 of the present invention is preferably a plastic material which meets the fire safety/heat resistance grade of UL safety regulations. The insulating member 104' having a suitable plasticity or elasticity is very easy to be used on the board 102 in which the guide wire 122 of the illuminating light source 12G or the positioning insulator H)4 is assembled. The manner in which the insulating member 104 is positioned is 'in the preferred embodiment shown in FIG. 7, the positioning portion under the insulating member 104 is as shown by a broken line) and the corresponding back plate hole (not shown) Show) snap to complete positioning. In the embodiment as shown in Fig. 6 or 7, the illuminating light source (10) is preferably a cold cathode fluorescent lamp (cm). However, in different embodiments, the illuminating light source 12 亦可 may be a cold cathode fluorescent tube such as xenon (Xe) or mercury or a general = neon lamp or the like. The conductor (10) is preferably a copper sheet or an alloy having a copper metal. In order to increase the butterfly _ silk read, in the side of the support surface η 卜 side step - step to set the position for the positioning conductor. Further, the end of the conductor 13 is preferably provided with a bent portion 132 for holding the projection 116 of the insulating member 104. Referring to FIG. 8 at the same time, it is a cross-sectional view of another preferred embodiment of the insulating member of the present invention. In a preferred embodiment of this embodiment and the embodiment shown in Figure 5, no. (f) is that the insulating member 1G4 comprises at least a gap. Other structures are the same as those in the embodiment of Fig. 5 and will not be described herein. Referring to FIG. 6 at the same time, the gap 107 is formed over the insulating member 1〇4 and communicates to the guide wire hole gap i〇7, and the width is smaller than the guide wire hole 108, but similar to the guide wire 122, the main system The guide wire 122 is assembled from above. Therefore, in the assembly process, the guide wire 122 of the illuminating light source 120 is preferably conveniently placed in the guide wire hole 1 〇 8 from the top to bottom direction. That is to say, by the design of the gap 107, it is more convenient and convenient for the assembler to assemble the illuminating light source 120 on the insulating member 104, and the utility model can effectively save man-hours. The present invention has been described by the above related embodiments, but the above embodiments are merely examples for implementing the present invention. It must be noted that the disclosed embodiments are not intended to limit the scope of the invention. On the contrary, the modifications and adaptations of the spirit and scope of the invention are included in the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a portion of a backlight of a pre-reading art towel; FIG. 2 is an exploded view of the lamp assembly of FIG. 1; G 3 is a preferred embodiment of the light source structure of the present invention. Figure 4 is a cross-sectional view of the insulating member of the first embodiment of the present invention; Figure 6 is a second preferred embodiment of the light source structure of the present invention; Figure 7 is a perspective view of the group of Figure 6 in a backlight module; and Figure 8 is a cross-sectional view of the insulating member of the second preferred embodiment of the present invention.
II 1330291 【主要元件符號說明】 100光源結構 102背板 103定位部 104絕緣件 106本體 107間隙 108導絲孔 110支撐面 112内側 114外側 116凸出部 118擋片 120發光光源 122導絲 130導體 132彎折部 140側壁 142定位凸肋II 1330291 [Description of main components] 100 light source structure 102 back plate 103 positioning portion 104 insulation member 106 body 107 gap 108 guide wire hole 110 support surface 112 inner side 114 outer side 116 protrusion portion 118 block 120 light source 122 guide wire 130 conductor 132 bending portion 140 side wall 142 positioning rib