五、新型說明: 【新型所屬的技術領域】 4 ί創作是有關於—種光源組件及翻此種光源經件之 i杜’且制是有關於—種統組件及應用此種光源 、、且件之側光式背光模組。 【先前技術】 隨著電子產業日益發達,平面顯示器已逐漸聽極射 線官顯示器淘汰而成為目前的主流。在平面顯示器中,又 以液晶顯7FH的技術較為純熟且普及化。然而,由於液晶 顯示器的液晶顯示面板本身無法發光,故在液晶顯示面板 下方配置背光模組以提供光源,進而達賴示的功能。 以側光式背光模組為例,發光二極體光源及導光板組 裝於背板的内側,驅動電路配置於背板的外側。為了電性 連接發光一極體光源及驅動電路,會將連接於發光二極體 光源連接器的連接線匯集至背板内側的特定位置,再將連 接線繞至背板外側以連接於驅動電路。在此種配置方式之 下,連接線需在背板内側延伸,因此在裂配框架或其它構 件於月板時谷易對連接線造成壓損。此外,由於背板内側 配置有導光板等其它構件,因此連接線於背板内側的理線 較為不易,且對連接線進行重工時需拆解上述構件因此較 為費時費工。中華民國專利公開編號TW200712644、 TW200823545及TW200834160皆揭露了背光模組相關技 »03 【新型内容】 作提出一種側光式背光模組,可使連接發光-極 體7^與鶴·的連树較紐行理線及重卫 極 盘魅^作提出—種光源組件,可使連接發光二極體光为 與驅動電路的連接線較易進行理線及重工。 體先源 本創作的其他目的和優名 術特徵中得到進-步的了解點了从本創作所揭露的技 作之述^一或部份或全部目的或是其他目的,本創 作之一實施例提供— 板式她,㈣#板、導光 $ 一極體先源、驅動電路及連接線。背板且有第一 的第一表面與第二表面。導光板配置於第-表 S:Ϊί 光源配置於第-表面上且面對導光板的 fV口*;:光:極體光源具有連接器,連接器透過第-二ί電路配置於第二表面上。連接線配置 ;、且連接於驅動電路及連接器之間。 上狀—麵份或全部目喊是其他目的,本創 =一例提供—種光源組件,包括背板、發光二極體 路及連接線。背板具有第一開口及相對的第 lit 表面。發光二極縣源配置於第-表面上’ 中^光二極體光源具有連接器,連接器透過第一開口穿 過月板。驅動電路配置於第二表面上。連接線配置於第二 表面且連接於驅動電路及連接器之間。 ’’’τ'上所述,本創作之實施例的側光式背光模組及光源 組件至少具有下列其中一個優點: 在本創作的上述實施例中,背板具有開口,發光二極 體光源的連接器透過開口穿過背板因此與驅動電路位於背 板的同一側。藉此,用以連接驅動電路與連接器的連接線 可與發光二極體光源及導光板等構件位於背板的不同側, 使連接線的理線及重工較為方便,亦可避免裝配框架或其 它構件於背板時對連接線造成壓損。 為讓本創作之上述特徵和優點能更明顯易懂,下文特 舉多個實施例’並配合所附圖式,作詳細說明如下。 【實施方式】 有關本創作之前述及其他技術内容、特點與功效,在 以下配合參考圖式之多個實施例的詳細說明中,將可清楚 的呈現。以下實施例中所提到的方向用語,例如「上」、 「下」、「前」、「後」、「左」、「右」等,僅是參考 附加圖式的方向。因此,使用的方向用語是用來說明,而 非用來限制本創作。 圖1為本創作一實施例之側光式背光模組的立體圖。 圖2為圖1之側光式背光模組於另一視角的立體圖。請參 考圖1及圖2,本實施例的側光式背光模組1〇〇包括背板 110、導光板120、發光二極體光源130、驅動電路140、 連接線150及導熱結構160。背板11〇具有第一開口 112 及相對的第一表面110a與第二表面u〇b,導熱結構16〇 具有開口 160a。第一開口 112貫通於第—表面^^如與第 二表面110b之間’且開口 160a對位於第一開口 112。 M392365 背板Π〇、發光一極體光源130、驅動電路14〇、連接 線150及導熱結構160組成用以提供光源的光源組件,並 應用於本實施例的側光式背光模組1〇〇。 導光板120與導熱結構160皆配置於第一表面11〇a 上。本實施例的發光一極體光源130例如為發光二極體發 光條,且配置於導熱結構160上並面對導光板12〇的側邊二 發光二極體光源130具有連接器132,連接器132依序透 過開口 160a及第一開口 112從第一表面110a延伸至第二 表面110b。驅動電路140配置於第二表面i10b上。連接 線150配置於第二表面110b上且連接於驅動電路14〇及連 接器132之間。 藉此配置方式,用以連接驅動電路140與連接器132 的連接線150可與發光二極體光源130及導光板120等構 件位於背板110的不同側,使連接線150的理線及重工較 為方便,亦可避免裝配框架或其它構件於背板110時對連 接線150造成壓損。 請參考圖1,詳細而言,本實施例的導熱結構160包 括第一導熱板162及第二導熱板164。第一導熱板162平 舖於第一表面110a上,第二導熱板164直立於第一導熱板 162而與第一導熱板162構成L型結構,其甲發光二極體 光源130配置於第二導熱板162上且面對導光板120的側 邊。 此外,請參考圖2,本實施例的第一開口 112内侧與 連接器132之間具有間隙G1’藉以避免連接器132在第一 M392365 開口 112處與背板110相互磨損。圖3為本創作另一實施 例之側光式背光模組於第一開口處的局部放大圖。請參考 圖3,在本實施例申,更在背板21〇的第一開口 212内配 置用以填充間隙G2的彈性件270。彈性件270的材質例如 為橡膠且填充於連接器232與第一開口 212内側之間,藉 以達到防塵效果並避免光線透過第一開口 212外漏。 值得注意的是’本創作不對背板11〇的第一開口 U2 的位置加以限制’可將第一開口 112設於距離驅動電路140 較近的位置,以縮短連接線150的長度,使連接線15〇在 配置上更為方便並節省線材成本。此外,第一開口更可設 於背板的侧壁,以下藉由圖式加以舉例說明。 圖4為本創作另一實施例之側光式背光模組的立體 圖。圖5為圖4之側光式背光模組於另一視角的立體圖。 請參考圖4及圖5,本實施例的侧光式背光模組3〇〇包括 背板310、導光板320、發光二極體光源330、驅動電路340、 連接線350及導熱結構360。背板310具有第一開口 312 及相對的第一表面310a與第二表面310b。 背板310、發光二極體光源330、驅動電路340、連接 線350及導熱結構360組成用以提供光源的光源組件,並 應用於本實施例的側光式背光模組300。 導光板320與導熱結構360皆配置於第一表面310a 上。本實施例的發光二極體光源330例如為發光二極體發 光條’且配置於導熱結構360上且面對導光板320的側邊。 發光二極體光源330具有連接器332,背板310在第一表 7 M392365 面310a邊緣具有側壁31〇c,第一開口 312位於側壁310c, 連接器332透過第一開口 312延伸至側壁310c外側。驅動 電路340配置於第二表面31〇b上。連接線350配置於第二 表面310b上且連接於驅動電路340及連接器332之間。 藉此配置方式,用以連接驅動電路340與連接器332 的連接線350可與發光二極體光源330及導光板320等構 件位於为板310的不同側,使連接線350的理線及重工較 為方便’亦可避免裝配框架或其它構件於背板31〇時對連 接線350造成壓損。 請參考圖4 ’詳細而言,本實施例的導熱結構360包 括第一導熱板362及第二導熱板364。第一導熱板362平 鋪於第一表面310a上’第二導熱板364直立於第一導熱板 362而與第一導熱板362構成L型結構,其中發光二極體 光源330配置於第二導熱板362上且面對導光板32〇側邊。 綜上所述’本創作之實施例的側光式背光模組及光源 組件至少具有下列其中一個優點: 在本創作的上述實施例中’背板具有開口,發光二極 體光源的連接器透過開口穿過背板而與驅動電路位於背板 的同一侧。藉此,用以連接驅動電路與連接器的連接線可 與發光一極體光源及導光板等構件位於背板的不同側,使 連接線的理線及重工較為方便,亦可避免裝配框架或其它 構件於背板時對連接線造成壓損。此外,可在連接器與開 口内侧之間設置彈性件,以達到防塵效果並避免光線透過 開口外漏。 M392365 &惟以上所述者’僅為糊作之雛實闕*已,當不 ^乂此限定本創作實施之範圍,即大凡依本辦申請專利 =及創作說明内容所作之簡單的等效變化與修飾,皆仍 =創作專利涵蓋之範圍内。另外,本創作的任一實施例 2請專纖圍不須達成摘作所揭露之全部目的或優點 ,特點。此外,摘要部分和標題僅是时輔助專利文件搜 哥之用,並非用來限制本創作之權利範圍。V. New type description: [New technical field] 4 ί creation is about a kind of light source component and turning over the light source of the light component, and the system is related to the system component and the application of the light source, and Side lighting backlight module. [Prior Art] With the development of the electronics industry, flat panel displays have gradually become the mainstream because of the elimination of the polar ray officer display. In the flat panel display, the technology of liquid crystal display 7FH is more sophisticated and popular. However, since the liquid crystal display panel of the liquid crystal display itself cannot emit light, a backlight module is disposed under the liquid crystal display panel to provide a light source, thereby achieving the function of the display. For example, in the edge-lit backlight module, the light-emitting diode light source and the light guide plate are assembled on the inner side of the back plate, and the driving circuit is disposed on the outer side of the back plate. In order to electrically connect the light-emitting one-pole light source and the driving circuit, the connecting line connected to the light-emitting diode light source connector is collected to a specific position inside the back plate, and the connecting wire is wound to the outside of the back plate to be connected to the driving circuit. . In this configuration, the connecting wire needs to extend inside the backing plate, so that the valley is liable to compress the connecting line when the frame or other components are on the moon. In addition, since other members such as a light guide plate are disposed inside the back plate, the connection line on the inner side of the back plate is relatively difficult, and it is time-consuming and labor-intensive to disassemble the above-mentioned members when the connection line is reworked. The Republic of China Patent Publication Nos. TW200712644, TW200823545 and TW200834160 all disclose backlight module related technology»03 [New content] A side-lit backlight module is proposed, which can connect the light-polar body 7^ with the crane The New Line and the Guardian of the Polar Disk are proposed as a kind of light source component, which makes it easier to connect the light-emitting diode light to the connection line of the driving circuit for cable management and rework. The other purposes of the original creation and the characteristics of the prestige feature are further understood. The implementation of the technique disclosed in this creation is one or a part or all of the purpose or other purpose. Example provided - plate type her, (four) # board, light guide $ one pole body source, drive circuit and connecting line. The backing plate has a first first surface and a second surface. The light guide plate is disposed on the first surface S: Ϊί, the light source is disposed on the first surface and faces the fV port of the light guide plate;: the light: the polar body light source has a connector, and the connector is disposed on the second surface through the first bis circuit on. The connection line is configured and connected between the drive circuit and the connector. The upper-face or all-out is another purpose. This is an example of a light source component, including a backplane, a light-emitting diode, and a connecting line. The backing plate has a first opening and an opposite first lit surface. The light-emitting diode source is disposed on the first surface. The light-emitting diode source has a connector through which the connector passes through the first opening. The driving circuit is disposed on the second surface. The connecting wire is disposed on the second surface and connected between the driving circuit and the connector. As described above, the edge-lit backlight module and the light source assembly of the embodiment of the present invention have at least one of the following advantages: In the above embodiment of the present invention, the back plate has an opening, and the light-emitting diode light source The connector passes through the opening through the backplane and thus is located on the same side of the backplane as the drive circuit. Therefore, the connection line for connecting the driving circuit and the connector can be located on different sides of the backplane from the components such as the light emitting diode light source and the light guide plate, so that the connection line can be easily handled and reworked, and the assembly frame or the assembly frame can be avoided. Other components cause pressure loss to the connecting line when the backing plate is used. To make the above-described features and advantages of the present invention more comprehensible, a plurality of embodiments are described hereinafter and are described in detail below with reference to the accompanying drawings. The above and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the embodiments of the drawings. The directional terms mentioned in the following embodiments, such as "upper", "lower", "before", "after", "left", "right", etc., are only directions referring to the additional schema. Therefore, the directional terminology used is used to illustrate, not to limit the creation. FIG. 1 is a perspective view of an edge-lit backlight module according to an embodiment of the invention. 2 is a perspective view of the side-lit backlight module of FIG. 1 from another perspective. Referring to FIG. 1 and FIG. 2, the edge-lit backlight module 1 of the present embodiment includes a back plate 110, a light guide plate 120, a light-emitting diode light source 130, a driving circuit 140, a connecting line 150, and a heat conducting structure 160. The back plate 11A has a first opening 112 and an opposite first surface 110a and a second surface u〇b, and the heat conducting structure 16A has an opening 160a. The first opening 112 is continuous between the first surface and the second surface 110b and the opening 160a is located at the first opening 112. The M392365 backplane, the light emitting body light source 130, the driving circuit 14A, the connecting line 150 and the heat conducting structure 160 constitute a light source component for providing a light source, and are applied to the edge light type backlight module of the embodiment. . The light guide plate 120 and the heat conducting structure 160 are disposed on the first surface 11〇a. The light-emitting diode light source 130 of the present embodiment is, for example, a light-emitting diode light-emitting strip, and the two-light-emitting diode light source 130 disposed on the heat-conducting structure 160 and facing the light-guide plate 12A has a connector 132, and the connector 132 sequentially extends from the first surface 110a to the second surface 110b through the opening 160a and the first opening 112. The driving circuit 140 is disposed on the second surface i10b. The connecting line 150 is disposed on the second surface 110b and connected between the driving circuit 14A and the connector 132. With this configuration, the connecting line 150 for connecting the driving circuit 140 and the connector 132 can be located on different sides of the backplane 110 from the components such as the LED light source 130 and the light guide plate 120, so that the connecting line 150 is rewired and reworked. It is convenient to avoid pressure loss on the connecting wire 150 when the frame or other components are assembled on the backboard 110. Referring to FIG. 1, in detail, the heat conducting structure 160 of the embodiment includes a first heat conducting plate 162 and a second heat conducting plate 164. The first heat conducting plate 162 is laid on the first surface 110a, the second heat conducting plate 164 is erected on the first heat conducting plate 162 and forms an L-shaped structure with the first heat conducting plate 162, and the LED light emitting diode light source 130 is disposed in the second shape. The heat conducting plate 162 is on the side facing the side of the light guide plate 120. In addition, referring to FIG. 2, a gap G1' is formed between the inner side of the first opening 112 and the connector 132 of the present embodiment to prevent the connector 132 from abrading with the backing plate 110 at the first M392365 opening 112. FIG. 3 is a partially enlarged view of the edge-lit backlight module of another embodiment of the present invention at a first opening. Referring to FIG. 3, in the embodiment, an elastic member 270 for filling the gap G2 is disposed in the first opening 212 of the back plate 21A. The material of the elastic member 270 is, for example, rubber and is filled between the connector 232 and the inner side of the first opening 212 to achieve a dustproof effect and prevent light from leaking through the first opening 212. It should be noted that 'this creation does not limit the position of the first opening U2 of the back plate 11'. The first opening 112 can be disposed at a position closer to the driving circuit 140 to shorten the length of the connecting line 150 and make the connecting line 15〇 is more convenient to configure and saves wire costs. In addition, the first opening can be further disposed on the side wall of the backboard, which is exemplified below by way of drawings. 4 is a perspective view of an edge-lit backlight module according to another embodiment of the present invention. 5 is a perspective view of the side-lit backlight module of FIG. 4 in another perspective. Referring to FIG. 4 and FIG. 5, the edge-lit backlight module 3 of the present embodiment includes a back plate 310, a light guide plate 320, a light-emitting diode light source 330, a driving circuit 340, a connecting line 350, and a heat conducting structure 360. The back plate 310 has a first opening 312 and opposing first and second surfaces 310a, 310b. The backplane 310, the LED source 330, the driving circuit 340, the connecting line 350 and the heat conducting structure 360 constitute a light source component for providing a light source, and are applied to the edge-lit backlight module 300 of the embodiment. The light guide plate 320 and the heat conducting structure 360 are disposed on the first surface 310a. The light-emitting diode light source 330 of the present embodiment is, for example, a light-emitting diode light-emitting strip ′ and is disposed on the heat-conducting structure 360 and faces the side of the light guide plate 320. The light-emitting diode light source 330 has a connector 332. The back plate 310 has a side wall 31〇c at the edge of the first surface 7 M392365 surface 310a. The first opening 312 is located at the side wall 310c, and the connector 332 extends through the first opening 312 to the outside of the side wall 310c. . The drive circuit 340 is disposed on the second surface 31〇b. The connecting line 350 is disposed on the second surface 310b and connected between the driving circuit 340 and the connector 332. With this configuration, the connection line 350 for connecting the driving circuit 340 and the connector 332 can be located on different sides of the board 310 from the components such as the LED light source 330 and the light guide plate 320, so that the connection line 350 can be wired and reworked. It is convenient to avoid the pressure loss of the connecting wire 350 when the frame or other components are assembled on the back plate 31. Referring to FIG. 4 in detail, the heat conducting structure 360 of the present embodiment includes a first heat conducting plate 362 and a second heat conducting plate 364. The first heat conducting plate 362 is laid on the first surface 310a. The second heat conducting plate 364 is erected on the first heat conducting plate 362 and forms an L-shaped structure with the first heat conducting plate 362. The light emitting diode light source 330 is disposed on the second heat conducting layer. The plate 362 faces the side of the light guide plate 32. In summary, the edge-lit backlight module and the light source assembly of the present embodiment have at least one of the following advantages: In the above embodiment of the present invention, the back plate has an opening, and the connector of the light-emitting diode light source is transmitted through The opening passes through the backing plate and is located on the same side of the backing plate as the drive circuit. Therefore, the connection line for connecting the driving circuit and the connector can be located on different sides of the backplane from the components such as the light-emitting one-pole light source and the light guide plate, so that the connection line can be easily handled and reworked, and the assembly frame or the assembly frame can be avoided. Other components cause pressure loss to the connecting line when the backing plate is used. In addition, an elastic member can be provided between the connector and the inside of the opening to achieve a dustproof effect and to prevent light from leaking through the opening. M392365 & However, the above-mentioned ones are only for the sake of the essays. If this is not the case, the scope of this creation is limited, that is, the simple equivalent of the patent application and the content of the creation instructions. Changes and modifications are still within the scope of the creation of patents. In addition, in any of the embodiments of the present invention, it is not necessary to achieve all the objects, advantages, and features disclosed in the abstract. In addition, the abstract sections and headings are for the sole purpose of assisting in the search for patent documents and are not intended to limit the scope of the invention.
【圖式簡單說明】 圖1為本創作一實施例之侧光式背光模組的立體圖。 圖2為圖i之側光式背光模組於另一視角的立體圖。 圖3為本創作另-實施例之側光式背光模組於第一開 口處的局部放大圖。 圖4為本創作另-實施例之侧光式背光模組的立體 圖。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an edge-lit backlight module according to an embodiment of the present invention. 2 is a perspective view of the side light type backlight module of FIG. FIG. 3 is a partially enlarged view of the edge-lit backlight module of the other embodiment of the present invention at a first opening. 4 is a perspective view of the edge-lit backlight module of another embodiment of the present invention.
圖5為圖4之側光式背光模虹於另一視角的立體圖。 【主要元件符號說明】 100、300 :側光式背光模組 110、210、310 ··背板 110a、310a :第一表面 110b、310b :第二表面 112、212、312 :第一開口 120、320 :導光板 9 M392365 130、330 :發光二極體光源 132、232、332 :連接器 140、240、340 :驅動電路 150、350 :連接線 160、360 :導熱結構 160a :開口 162、362 :第一導熱板 164、264 :第二導熱板 270 :彈性件 Gl、G2 :間隙FIG. 5 is a perspective view of the side light type backlight of FIG. 4 in another perspective. [Main component symbol description] 100, 300: edge-lit backlight module 110, 210, 310 · Backplane 110a, 310a: first surface 110b, 310b: second surface 112, 212, 312: first opening 120, 320: Light guide plate 9 M392365 130, 330: Light-emitting diode light source 132, 232, 332: connector 140, 240, 340: drive circuit 150, 350: connection line 160, 360: heat-conducting structure 160a: opening 162, 362: First heat conducting plate 164, 264: second heat conducting plate 270: elastic members G1, G2: gap