1354165 95116 21125twf.doc/e 須小心地先使光源110對位,然後再進行黏附的步驟。然 而’若是光源110的組裝位置偏移或錯誤而需要重工 (rework)時,往往是將光源的從燈罩130上直接拔除 下來。如此一來,在重工的過程中,印刷電路板114常常 會損壞,而讓光源110需要重製,無形中增加了產品的成 本。 【發明内容】 本發明之目的是提供一種易於重工的背光模組。 本發明之另一目的是提供一種可有效降低整體成本的 顯示裝置。 為達上述或是其他目的,本發明提出一種背光模組, 其包括一基板、多個燈源以及一燈罩。燈源配置於基板上, 其中兩相鄰的燈源之間有一間隙。燈罩包括一本體及多個 定位結構,其中定位結構連接本體。本體具有一凹槽立 基板位於凹槽内,而每一定位結構對應配置於間隙,以使 基板承靠燈罩。 在本發明之一實施例中,上述之每一定位結構具有一 第一延伸部以及一第二延伸部,而第一延伸部連接^體, 且第二延伸部鄰接第一延伸部。1354165 95116 21125twf.doc/e Care must be taken to first align the source 110 and then adhere. However, if the assembly position of the light source 110 is shifted or wrong and rework is required, the light source is often directly removed from the lamp cover 130. As a result, during the rework process, the printed circuit board 114 is often damaged, and the light source 110 needs to be reworked, which inevitably increases the cost of the product. SUMMARY OF THE INVENTION It is an object of the present invention to provide a backlight module that is easy to rework. Another object of the present invention is to provide a display device which can effectively reduce the overall cost. To achieve the above or other objects, the present invention provides a backlight module including a substrate, a plurality of light sources, and a light cover. The light source is disposed on the substrate, wherein a gap is formed between two adjacent light sources. The lamp cover includes a body and a plurality of positioning structures, wherein the positioning structure is coupled to the body. The body has a recessed vertical substrate located in the recess, and each of the positioning structures is correspondingly disposed in the gap to support the substrate against the lamp cover. In an embodiment of the invention, each of the positioning structures has a first extension portion and a second extension portion, and the first extension portion is connected to the body, and the second extension portion is adjacent to the first extension portion.
在本發明之一實施例中,上述之每一定位結構為一 L 型的飯件’且第二延伸部承靠基板並位於間隙,以&基板 定位於燈罩。 > 在本發明之一實施例中’上述之每一定位結構為凸向 基板之一凸起,而第二延伸部承靠基板並位於間隙,以使 6 1354165 95116 21125twf.doc/eIn an embodiment of the invention, each of the positioning structures is an L-shaped rice piece' and the second extension portion bears against the substrate and is located in the gap, and the & substrate is positioned in the lamp cover. > In an embodiment of the invention, each of the positioning structures is a protrusion of the convex substrate, and the second extension bears against the substrate and is located in the gap so that 6 1354165 95116 21125twf.doc/e
基板定位於燈罩。 在本發明之一實施例中 成型。 在本發明之一實施例中 板。 在本發明之一實施例中 體。 在本發明之一實施例中 置於燈罩之一側的導光板。 ’上述之定位結構與本體〜蟪 ,上述之基板包括一印刷電略 ’上述之燈源包括一發光二极 ’上述之背光模組更包括〜配 本發明又提出一種顯示裝置’其包括一顯示面板以及 一背光模組,其中背光模組配置於顯示面板之一側。背光 模組包括一基板、多個燈源以及一燈罩。燈源配置於基板 上,其中兩相鄰的燈源之間有一間隙。燈罩包括一本體及 夕個疋位結構’其中疋位結構連接本體。本體具有一凹槽, 且基板位於凹槽内,而每一定位結構對應配置於間隙,以 使基板承靠燈罩。 'The substrate is positioned on the lamp cover. Formed in an embodiment of the invention. In one embodiment of the invention a plate. In one embodiment of the invention, the body is in the body. In an embodiment of the invention, the light guide plate is placed on one side of the lamp cover. The above-mentioned positioning structure and the body 蟪, the substrate includes a printed circuit. The light source includes a light-emitting diode. The backlight module further includes a display device. The display device includes a display panel. And a backlight module, wherein the backlight module is disposed on one side of the display panel. The backlight module includes a substrate, a plurality of light sources, and a light cover. The light source is disposed on the substrate, wherein a gap is formed between two adjacent light sources. The lampshade includes a body and a squatting structure, wherein the clamping structure connects the body. The body has a recess, and the substrate is located in the recess, and each positioning structure is correspondingly disposed in the gap to support the substrate against the lamp cover. '
在本發明之一實施例中,上述之每一定位結構具有一 第一延伸部以及一第二延伸部,而第一延伸部連接本體, 且第一延伸部鄰接第一延伸部。In an embodiment of the invention, each of the positioning structures has a first extension portion and a second extension portion, and the first extension portion connects the body, and the first extension portion abuts the first extension portion.
在本發明之-實施例中,上述之每一定位結構為一 L 型的鈑件’且第二延伸縣減板並位於_,以使基板 定位於燈罩。 在本發明之-實施例中,上述之每一定位結構為凸向 基板之凸起,而第二延伸部承靠基板並位於間隙,以使 7 95116 21125twf.doc/e 基板定位於燈罩。 在本發明之一實施例中,上述之定位結構與本體一體 成型。 在本發明之一實施例中,上述之背光模組更包括一導 光板,配置於燈罩之一側。 在本發明之一實施例中,上述之顯示面板包括一液晶 顯示面板。 在本發明之一實施例中,上述之基板包括一印刷電路 板。 在本發明之一實施例中,上述之燈源包括一發光二極 體。 在本發明之一實施例中,上述之顯示裝置更包括一光 學膜片,此光學膜片配置於顯示面板與背光模組之間。 在本發明之一實施例中,上述之光學膜片包括擴散片 (diffusion plate)、偏光片(p〇larizer)、稜鏡片(prism 讣⑽ 或是這些膜片的組合。 本發明利用定位結構與本體挾持基板,因此基板可承 靠於燈罩,並穩固地定位於燈罩的凹槽内。當基板組裝至 燈罩的位置錯誤時,我們可以施力將基板從燈罩中輕易地 拔出’同時保持基板的完整性。因此,在重工的步驟中, 能夠減少元件損壞的情形’進而有效地降低整體成本。 為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂,下文待舉一實施例,並配合所附圖式,作詳細說明 如下。 1354165 95116 21125twf.doc/e 【實施方式】 第一實施例 . 圖2為本發明第一實施例之顯示裝置的示意圖。請參 考圖2 ’顯示裝置400包括一顯示面板300以及一背光模 組200,其中顯示面板300為一液晶顯示面板,而背光模 組200可為一側邊入光式背光模組或直下式背光模組。本 實施例之顯示裝置400例如是一筆記型電腦(Note Book)。 圖3A為本發明第一實施例之背光模組的局部立體 圖、圖3B為圖3A之背光模組的前視圖,而圖4為圖3A 之背光模組的剖視圖。請同時參考圖3A、3B及圖4,本 實施例之背光模組200包括一基板210、多個燈源220以 及一燈罩230。在本實施例中,基板21〇為一長條形的印 刷電路板。燈源220配置於基板210上,且兩個相鄰的燈 源220之間有一間隙s,而本實施例之燈源220為發光二 極體。 承上述’燈罩230包括一本體232以及多個定位結構 234 ’其中定位結構234連接本體232,且本實施例之定位 結構234是與本體232 —體成型。簡單地來說,定位結構 234疋藉由折彎部分的本體232以形成。+體232具有一 凹槽232a,其中基板210即是位於凹槽232a内。定位結 構234對應配置於間隙s並承靠基板21〇,以使基板21〇 能夠穩固地固^於燈罩23〇。此外,為了降低製作成本, 我們也可以於本體232的適當位置選擇性地形成定位結構 234 ’並不需要使每個随s都有定位結構234配設於其 9 1354165 95116 21125twf.doc/e 中。 詳細地來說’每一個定位結構234具有一第一延伸部 234a以及一第二延伸部234b,其中第一延伸部234a連接 於本體232 ’而第一延伸部234b鄰接第一延伸部234a。本 實施例之定位結構234為一 L型的飯件,因此定位結構234 的第二延伸部234b大致垂直第一延伸部234a。在本實施 例中’藉由定位結構234的第二延伸部234b承靠基板 210’以使基板210能夠穩固地定位於燈罩230的凹槽232a 内。 值得注意的是’由於本實施例之定位結構234的第二 延伸部234b是利用承靠的方式使基板21〇定位於凹槽 232a内’因此右是基板210的組裝位置錯誤,我們便可以 施力將基板210自凹槽232a内輕易地拔出,且基板21〇 不會損壞。相較於習知,本實施例之顯示裝置4〇〇的背光 模組200因具有易於插拔的基板210,顯示裝置4〇〇因而 具有易於重工之優點,並可較習知有效降低整體成本。 此外’第一延伸部234b承靠於基板21〇,因此燈源220 發光所產生的熱,除了藉由基板210傳至背光模組2〇〇之 框架(圖未示)來向下散熱之外,還可以藉由基板21〇傳至 第二延伸部234b來向上散熱,因此本實施例之背光模組 200的散熱途徑較習知之背光模組多,且散熱效果較佳: 值得注意的是’第二延伸部234b的寬度為小於兩相鄰 之燈源220的間隙S,較佳為剛好是s,以達到結構的緊 配。此外,為了不使第二延伸部234b影響燈源22〇°的發光 1354165 95116 21125twf.doc/e 效率’因此第二延伸部234b的終端可以凹陷於燈源220 的發光面之内,或是剛好與發光面切齊。 特別的是’為了縮小顯示裝置400的外觀尺寸,我們 也可以減少第二延伸部234b的長度。換言之,即是縮短第 一延伸部234a與光源220之間的距離d。 除此之外,為了提昇顯示裝置400的光利用效率,我 們還可以在燈罩230的一侧配設一導光板240。本實施例 之背光模組200為一側邊入光式背光模組,導光板240配 置於燈罩230旁’並位於顯示面板300下,如圖2示。在 另一未繪示的實施例中’背光模組200為直下式背光模 組,而導光板240以擴散板(未標示)替換’且擴散板是配 置於燈罩230以及顯示面板300之間。 另外’為了提昂顯示裝置400的顯示效果,我們更可 以在顯示面板300以及背光模組200之間配設一光學膜片 310。本實施例之光學膜片310可以是擴散片(diffusi〇n plate)、偏光片(polarizer)、棱鏡片(prism sheet)或是這些膜 片的組合。 第二實施例 圖5為本發明第二實施例之背光模組的立體圖,而圖L 6為圖5之背光模組的剖視圖。在圖5、圖6與圖3、圖4 中’相同或相似之元件標號代表相同或相似的元件,且本 實施例與第一實施例大致相同’因此以下僅針對兩個實施 例不同之處詳加說明’相同之處便不再贅述。 請同時參考圖5及圖6 ’與第一實施例不同的是,在 11 1354165 95116 21125twf.doc/e 本實施例中’背光模組200’的定位結構234,是利用沖壓本 體232’而形成的凸起’且凸起凸向基板210。 詳細地來說,定位結構234,具有一第一延伸部234a, 以及一第二延伸部234b’,其中第一延伸部234a,連接於本 體232’ ’而第二延伸部234b’鄰接第一延伸部234a。本實 施例之定位結構234’為凸向基板210的凸起,且定位結構 234’的第二延伸部234b’大致垂直第一延伸部234a,。在本 實施例中,凸向於基板210的第二延伸部234b,會承靠基 板210’因此燈罩230’是利用本體234’及第二延伸部234b, 挾持基板210 ’使基板210能夠穩固地定位於的凹槽232a, 内。 此外’為了節省製作成本’我們也可以選擇性地在本 體232’的適當位置進行沖壓’以形成定位結構234,,並不 一定每個間隙S都必須要有定位結構234’配設其中。 由於本實施例之燈罩230,是利用第二延伸部234b,及 本體232’挾持基板210,以使基板210定位於凹槽232a 内。因此,當基板210的組裝位置錯誤,我們便可以施力 將基板210自凹槽232a’内輕易地拔出,而不會使基板21〇 有所損壞。與習知相較,在重工時,基板21〇易於自背光 模組200’中拔出,可減少重工時零件損壞的情形,進而有 效降低整體成本。 由於本實施例之定位結構234,並未與本體232’斷開, 因此本實施例之燈源220發光所產生的熱,除了可同時藉 由背光模組200之框架(圖未示)及第二延伸部234b,以向上 12 1354165 95116 21I25twf.doc/e 及下散熱外,更可以藉由第二延伸部234b,傳至本體232, 以大面積地散熱,因此本實施例之背光模組2〇〇,的散熱效 果較第一實施例之背光模組200更佳。 同樣地,第二延伸部234b,的寬度為小於兩相鄰之燈 源220的間隙寬度,較佳為剛好是間隙的寬度,以達到結 構的緊配。此外,為了不使第二延伸部234b,影響燈源22〇 的發光效率,因此第二延伸部234b,的終端可以凹陷於燈 源220的發光面之内,或是剛好與發光面切齊。 特別的是,為了縮小顯示裝置的外觀尺寸,我們也可 以減少第二延伸部234b,的長度。換言之,即是縮短第一 延伸部234a’與光源220之間的距離d。 ,上所述,本發明背光模組及使用此背光模組之顯示 裝置疋利用定位結構的第二延伸部以及本體挾持基板,因 此基板能夠穩固地定位於燈罩的凹槽内。此外,當基板組 裝至燈罩的位置錯誤時,我們可以施力將基板從燈罩中輕 易地拔出,同時並可以保持基板的完整性。另外,在重工 的步驟中,能夠保持基板的完整性,因此可以減少因重工 而使70件損壞的情形,進而有效地降低整體成本。 广另外’第二延伸部承靠於基板,讓背光模組的散熱途 徑較多,且散熱效果較佳。此外,我們也可以藉由減少第 一延伸部的長度’以達到縮小顯示裝置之外觀尺寸的目的。 —雖然本發明已以一實施例揭露如上,然其並非用以限 疋本發明’任何所屬技術領域中具有通常知識者,在不脫 離本發明之精神和範圍内,當可作些許之更動與潤飾,因 13 1354165 95116 21125twf.doc/e 此本發明之保護範圍當視後附之申請專利範圍所界定者為 準。 【圖式簡單說明】 圖 圖 圖 圖 1為習知一種背光模組的示意圖。 2為本發明第一實施例之顯示裝置的示意圖。 3A為本發明第一實施例之背光模組的局邹立— 3B為圖3A之背光模組的前視圖。 體圖In an embodiment of the invention, each of the positioning structures is an L-shaped member and the second extension is located at the _ to position the substrate in the shade. In an embodiment of the invention, each of the positioning structures is a protrusion that protrudes toward the substrate, and the second extension bears against the substrate and is positioned in the gap to position the 7 95116 21125 twf.doc/e substrate to the lamp cover. In an embodiment of the invention, the positioning structure is integrally formed with the body. In an embodiment of the invention, the backlight module further includes a light guide plate disposed on one side of the light cover. In an embodiment of the invention, the display panel comprises a liquid crystal display panel. In one embodiment of the invention, the substrate comprises a printed circuit board. In an embodiment of the invention, the light source comprises a light emitting diode. In an embodiment of the invention, the display device further includes an optical film disposed between the display panel and the backlight module. In an embodiment of the invention, the optical film comprises a diffusion plate, a polarizer (p〇larizer), a cymbal (prism 讣(10) or a combination of the films. The invention utilizes a positioning structure and The body holds the substrate, so the substrate can bear against the lamp cover and be firmly positioned in the recess of the lamp cover. When the position of the substrate assembled to the lamp cover is wrong, we can force the substrate to be easily pulled out from the lamp cover while maintaining the substrate. Integrity. Therefore, in the step of rework, the situation of component damage can be reduced', thereby effectively reducing the overall cost. To make the above and other objects, features and advantages of the present invention more apparent, the following is to be implemented. For example, the following is a detailed description of the following: 1354165 95116 21125 twf.doc/e [Embodiment] First Embodiment FIG. 2 is a schematic view of a display device according to a first embodiment of the present invention. The display device 400 includes a display panel 300 and a backlight module 200. The display panel 300 is a liquid crystal display panel, and the backlight module 200 can be used for one side of the light. The display device 400 of the present embodiment is, for example, a notebook computer. FIG. 3A is a partial perspective view of the backlight module according to the first embodiment of the present invention, and FIG. 3B is a view. 3A is a front view of the backlight module, and FIG. 4 is a cross-sectional view of the backlight module of FIG. 3A. Referring to FIG. 3A, FIG. 3B and FIG. 4, the backlight module 200 of the embodiment includes a substrate 210 and a plurality of light sources. 220 and a lamp cover 230. In this embodiment, the substrate 21 is an elongated printed circuit board. The light source 220 is disposed on the substrate 210, and a gap s is formed between two adjacent light sources 220. The light source 220 of the present embodiment is a light-emitting diode. The light-emitting diode 230 includes a body 232 and a plurality of positioning structures 234. The positioning structure 234 is connected to the body 232, and the positioning structure 234 of the embodiment is the same as the body 232. In a simple manner, the positioning structure 234 is formed by the body 232 of the bent portion. The + body 232 has a recess 232a, wherein the substrate 210 is located in the recess 232a. The positioning structure 234 is correspondingly disposed in the gap. s and bear against the substrate 21〇 to make the substrate 2 1〇 can be firmly fixed to the lamp cover 23〇. In addition, in order to reduce the manufacturing cost, we can also selectively form the positioning structure 234' at the appropriate position of the body 232 without having to have each positioning structure 234 with s It is provided in its 9 1354165 95116 21125 twf.doc/e. In detail, each of the positioning structures 234 has a first extension 234a and a second extension 234b, wherein the first extension 234a is connected to the body 232' The first extension portion 234b is adjacent to the first extension portion 234a. The positioning structure 234 of the present embodiment is an L-shaped rice piece, so that the second extending portion 234b of the positioning structure 234 is substantially perpendicular to the first extending portion 234a. In the present embodiment, the second extension 234b of the positioning structure 234 bears against the substrate 210' to enable the substrate 210 to be stably positioned within the recess 232a of the globe 230. It should be noted that since the second extension portion 234b of the positioning structure 234 of the present embodiment is to position the substrate 21〇 in the groove 232a by means of bearing, the right assembly position of the substrate 210 is wrong, and we can apply The substrate 210 is easily pulled out from the inside of the recess 232a, and the substrate 21 is not damaged. Compared with the prior art, the backlight module 200 of the display device 4 of the present embodiment has the advantages of being easy to rework due to the easy-to-plug substrate 210, and can effectively reduce the overall cost. . In addition, the first extension portion 234b bears against the substrate 21〇, so the heat generated by the illumination of the light source 220 is not only radiated downward by the substrate 210 to the frame of the backlight module 2 (not shown). The heat dissipation method of the backlight module 200 of the present embodiment is more conventional than that of the conventional backlight module, and the heat dissipation effect is better: The width of the second extension portion 234b is smaller than the gap S of the two adjacent light sources 220, preferably just s, to achieve a tight fit of the structure. In addition, in order not to cause the second extension portion 234b to affect the illumination 1354165 95116 21125 twf.doc/e efficiency of the light source 22 〇°, the terminal end of the second extension portion 234b may be recessed within the illumination surface of the light source 220, or just It is flush with the luminous surface. In particular, in order to reduce the external size of the display device 400, we can also reduce the length of the second extension portion 234b. In other words, the distance d between the first extension portion 234a and the light source 220 is shortened. In addition, in order to improve the light use efficiency of the display device 400, a light guide plate 240 may be disposed on one side of the lamp cover 230. The backlight module 200 of the embodiment is a one-side light-integrating backlight module, and the light guide plate 240 is disposed adjacent to the lamp cover 230 and located under the display panel 300, as shown in FIG. In another embodiment not shown, the backlight module 200 is a direct type backlight module, and the light guide plate 240 is replaced by a diffusion plate (not shown) and the diffusion plate is disposed between the lamp cover 230 and the display panel 300. Further, in order to enhance the display effect of the display device 400, an optical film 310 may be disposed between the display panel 300 and the backlight module 200. The optical film 310 of this embodiment may be a diffuser plate, a polarizer, a prism sheet or a combination of these films. Second Embodiment FIG. 5 is a perspective view of a backlight module according to a second embodiment of the present invention, and FIG. 6 is a cross-sectional view of the backlight module of FIG. 5. In FIG. 5, FIG. 6 and FIG. 3, FIG. 4, the same or similar component numbers denote the same or similar elements, and the present embodiment is substantially the same as the first embodiment. Therefore, the following only differs between the two embodiments. Explain in detail that 'the same thing will not be repeated. Referring to FIG. 5 and FIG. 6 simultaneously, the first embodiment is different from the first embodiment. In the present embodiment, the positioning structure 234 of the backlight module 200 is formed by using the stamping body 232'. The protrusions 'and the protrusions are convex toward the substrate 210. In detail, the positioning structure 234 has a first extending portion 234a and a second extending portion 234b', wherein the first extending portion 234a is connected to the body 232"' and the second extending portion 234b' is adjacent to the first extending portion. Part 234a. The positioning structure 234' of the present embodiment is a protrusion of the convex substrate 210, and the second extending portion 234b' of the positioning structure 234' is substantially perpendicular to the first extending portion 234a. In this embodiment, the second extending portion 234b protruding from the substrate 210 bears against the substrate 210'. Therefore, the lamp cover 230' utilizes the body 234' and the second extending portion 234b to hold the substrate 210' to enable the substrate 210 to be stably Located in the groove 232a, inside. In addition, in order to save manufacturing costs, we can also selectively press at the appropriate position of the body 232' to form the positioning structure 234, and it is not necessary for each of the gaps S to have the positioning structure 234' disposed therein. Since the lamp cover 230 of the present embodiment utilizes the second extension portion 234b, and the body 232' holds the substrate 210, the substrate 210 is positioned within the recess 232a. Therefore, when the assembly position of the substrate 210 is wrong, we can force the substrate 210 to be easily pulled out from the recess 232a' without causing damage to the substrate 21. Compared with the conventional one, the substrate 21 is easily pulled out from the backlight module 200' during rework, which can reduce the damage of parts during rework, thereby effectively reducing the overall cost. Since the positioning structure 234 of the embodiment is not disconnected from the body 232', the heat generated by the light source 220 of the embodiment can be generated by the frame of the backlight module 200 (not shown) and the The second extension portion 234b can be radiated to the main body 232 through the second extension portion 234b to dissipate heat over a large area, so that the backlight module 2 of the embodiment is The heat dissipation effect is better than that of the backlight module 200 of the first embodiment. Similarly, the width of the second extension portion 234b is smaller than the gap width of the two adjacent lamps 220, preferably just the width of the gap, to achieve a tight fit of the structure. Further, in order not to affect the luminous efficiency of the light source 22A without the second extending portion 234b, the terminal end of the second extending portion 234b may be recessed within the light emitting surface of the light source 220 or just in line with the light emitting surface. In particular, in order to reduce the size of the display device, we can also reduce the length of the second extension portion 234b. In other words, the distance d between the first extension portion 234a' and the light source 220 is shortened. As described above, the backlight module of the present invention and the display device using the same use the second extension of the positioning structure and the body to hold the substrate, so that the substrate can be stably positioned in the recess of the lamp cover. In addition, when the position of the substrate assembly to the lamp cover is wrong, we can force the substrate to be easily pulled out from the lamp cover while maintaining the integrity of the substrate. In addition, in the step of rework, the integrity of the substrate can be maintained, so that 70 pieces of damage due to heavy work can be reduced, thereby effectively reducing the overall cost. Moreover, the second extension portion bears against the substrate, so that the backlight module has more heat dissipation paths and better heat dissipation effect. In addition, we can also reduce the size of the display device by reducing the length of the first extension. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> </ RTI> <RTIgt; Retouching, as 13 1354165 95116 21125 twf.doc/e The scope of protection of the present invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a conventional backlight module. 2 is a schematic view of a display device according to a first embodiment of the present invention. 3A is a front view of the backlight module of FIG. 3A, which is the backlight module of the first embodiment of the present invention. Volume map
圖4為圖3A之背光模組的剖視圖。 圖5為本發明第二實施例之背光模組的局部立 圖6為圖5之背光模組的剖視圖。 圖 【主要元件符號說明】 100、200、200,:背光模組 110 :光源 112 :發光二極體 114 :印刷電路板 120 :雙面膠 130 :燈罩 210 :基板 220 :燈源 230 :燈罩 232、232’ :本體 232a、232a’ :凹槽 234、234’ :定位結構 234a、234a’ :第一延伸部 1354165 95116 21125twf.doc/e 234b、234b’ :第二延伸部 240 :導光板 300 :顯示面板 310 :光學膜片 400 :顯示裝置4 is a cross-sectional view of the backlight module of FIG. 3A. 5 is a partial elevational view of a backlight module according to a second embodiment of the present invention. FIG. 6 is a cross-sectional view of the backlight module of FIG. Figure [Main component symbol description] 100, 200, 200,: backlight module 110: light source 112: light emitting diode 114: printed circuit board 120: double-sided tape 130: lamp cover 210: substrate 220: light source 230: lamp cover 232 232': body 232a, 232a': groove 234, 234': positioning structure 234a, 234a': first extension 1354165 95116 21125twf.doc / e 234b, 234b': second extension 240: light guide plate 300: Display panel 310: optical film 400: display device
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