200914933 九、發明說明: 【發明所屬之技術領域】 本發明係有關適合用於各種資訊的顯示之光電裝置 及電子機器。 ^ 【先前技術】 一般來說’屬於光電裝置的一種之液晶顯示裝置主要 .具備有.液晶顯示面板’作為顯示面板而發揮.功妒,且由' 2片基板夾持液晶而成;以及照明裝置,由在端面具有 、LED(Light Emitting Diode ;發光二極體)等光源的導光板 所構成。在此,驅動液晶顯示面板的驅動ic係設置於兮液 晶顯示面板的基板上,並透過可撓性印刷電路板(FPC : Flexible Printed Circuit)而與外部的電子機器連接。 在如此的液晶顯示裝置中,照明裝置係收容在由樹脂 框架成形的框架中,液晶顯示面板係以雙面膠帶黏合於: 述框架。此外,為了提高液晶顯示裝置的強度,作:上述 框架的構成要素,亦會有別於樹脂框架另外嵌人金屬框^ ^形。而近年來係有利用时式(insert)成形等將樹脂 框木與金屬框架一體成形來設計框架,從而進—步 晶顯示裝置的強度之方法。 门 ±α另外⑥專利文獻1已揭* —種與框架成為-體之外 ,又的構成’係將背側外殼與框架構成為 能夠且右古雕接1 r _ 令1干糈此, 古古妝以(二維構造)’外殼對於扭曲與撓曲等變 有円度剛性而可確保強度。 專利文獻1:日本特開2002-221 706號公報 320491 5 200914933 【發明内容】 (發明所欲解決之課題) 然而,由於上述習知的液晶顯示裝置以液晶模組的外 /V又而σ必/員具備表側外敢與背側外殼與用以固定該些外 殼的固定間隔件等,因此有難以使光電裝置薄型化、小型 化之課題。 此外,近年來,隨著光電裳置的薄型化的市場要求提 高,也開始要求框架的薄型化。由於若將由樹脂框架形成 的框架予以,型化,則會有強度不足之虞,因此提案有一 才木係藉由將框架6又S十為由樹脂部與金屬部組成的複 合構造來使強度提升。 本發明乃鑒於上述問題點而研創者,其目的在於提供 一種具有足夠強度之一體成形的框架。 (解決課題的手段) 八在本發明的一態樣中,光電裝置具備:框架,係含有 ^屬部及樹脂部;以及顯示面板,係收容於樹脂部的内部; 引述框木係將金屬部與樹脂部一體成形而成;前述金屬部 ,在端部向顯示面板側彎曲之狀態T,使該端部的至少一 部分埋入於樹脂部的内部。 ^述光電裝置係具備顯示面板與框架。顯示面板係藉 由忙木而固定。框架係以金屬部與樹脂部一體成形者。全 屬=係在端部-曲之狀態下,使該端部的至少—部分埋;; 於:述樹脂部的内部。由於在端部彎曲之狀態下,藉由金 屬部與樹脂部形成框架’因此即使薄薄地形成框架本體仍 320491 200914933 的強度。亦即,由於金屬部的上述端部具有 ..置耐受才:擊箄因金屬部的厚度增加’而能夠提高光電裝 m 度。此外’端部的至少-部分係埋入於 二:厪此夠藉由定錨效果(anch〇ring effect)而堅固地 接性來提升尺寸精密度、提升對於 屬與樹炉❹能夠藉由該定錯效果來防止因金 密接性二,脹!數的不同所導致的脫落等,能夠形成 容於樹射靠性優異之框架。此外,將顯示面板收 ㈣,藉此而還附加有利用樹脂部的缓衝效果 果保蠖顯不面板以防破裂之效果。 有金2發明之另Γ態樣中’光電袭置具備··框架,係含. 及樹月日部,以及顯示面板,係收容於樹脂部的内 屬\=框架係將金屬部與樹脂部一體成形而成;前述金 小1/端部向顯示面板側折返之狀態下,使該端部的至 乂 一。卩分埋入於前述樹脂部的内部。 ί 上述光電裝置係具備顯示面板與框架。顯示面板係藉 王=固定。框架係以金屬部與樹腊部一體成形者。金 小1/端部向顯示面板側折返之狀態下,使該端部的至 於掛脂部的内部。藉由將上述金屬部的端部 予乂折返,則由於端部處於折返之狀態,因此 電^置的辨視側的愿力和施加至光電裝置的力而=加㈣ 不:的歪斜、撓曲、彎曲、撞擊等,故藉由折返部而捭 度口知度,並猎由埋人於㈣部的内部來提高光電裝置的^ 320491 7 200914933 部2二置的其他的-態樣中’前述金屬部的底 所掩埋b 後㈣述端部之段差係由前述樹脂部 π搿埋猎此,端部的至少—郫八 夠藉由定錨效果來堅固地::里入於樹脂部,而能 靠性)。 疋金屬部(提升尺寸精密度、可 部係置的其他的一態樣中’前述樹脂部的端 口 Μ糸壬比别述金屬部的端部 使是在將光電褒 、㈣大出之狀恶。籍此,即 顯示面板上的情形中$觸控面板等構件重疊在 和施加於光電裝置的應?金屬端部突出之樹脂部來缓 夠Α得防止顯示面板的 應力1 在上述光雷梦“顯不異常等之效果。 述全屬部俜•屮、並 態樣中’前述框架的外侧面的前 ,.縣路出。藉此,框架外周的強度提升。 面的前裝置的其他的—態樣中,前述框架的内側 ®的刖述金屬部係霞ψ n站,, |5 - , ^ V 猎匕,能夠提高載置於框架内之 部、的、配置%m的尺寸精密度。此外,藉由上述金屬 性^置’亦能夠使載置於框架内的顯示面板等的電屏蔽 的前t二光電Ϊ置的其他的-態樣中,前述框架的底部 升。& H出。藉此’顯示面板等的電屏蔽性係提 定於ί二2電裝置的其他的-態樣中,前述金屬部係固 樹脂部的内部。藉此,確保框架的強度,並且, 辑由树脂部的緩衝效果來保護顯示面板,並且不用另外需 8 320491 200914933 要上殼等固定構件 在上述光成更薄的電性面板之效果。 ,述端部的-端係於前㈣他的1樣中’前述金屬部的前 成。藉此,能夠面板的厚度方向折返疊合而形 保強度。 ㈣顯不面板於厚度方向的厚度,並且罐 在上述光電裝晋的—At . 係折返多段而形成。二7 ::,前述金屬部的前述端部 強度。 A ^此’能夠更進一步提高光㈣置的 在上述光電裝置的其他的—態金 相部係藉由捲邊(h—工别 防歪曲、挽曲、彎曲、撞擊ί丄具有保護顯示面板以 端部電:=二他的二態樣中,前述樹脂部係於 相對向並保持有:二空間部係以與前述金屬部 凸部之方式“於前亀部:夢形:二:覆蓋前述 樹腊部賴的面積料加,此上述金屬部與上述 積係0加’而成夠提高光電裝置的強度。 有貫電裝置的其他的―態樣中,前述金屬部係具 百貝牙該金屬部的孔、或彤忐 丁,、 狀,且前述樹脂部係以覆”述;^部的表面之凹凸形 二=’之述金屬部與上述樹脂部的密接之面積係增加, 而月b夠提向光電裝置的強度。 9刀 节八^上述光電裝置的一態樣中’前述金屬部係具有貫穿 孟屬㈣孔、或形成於該金屬部的表面之凹凸形狀二 320491 9 200914933 則述树月曰部係以覆蓋前述孔或凹凸形狀之方式形成。作 上述孔的一態樣,亦包含使變 — '、 部分之一部分變开予形的金屬部的折彎 浐邱的1 成者。猎此,上述金屬部與上述樹 ㈣掛接面積係增加,而能狗提高光電裝置的強度。 在本發明又另—態樣中,係能夠構 作成電子機器所具傷的顯示部。 u電裝置 【實施方式】 以下,參照圖式說明本發明的較佳實施形能。其中 以下的實施形態係為將本發明應用至液晶顯示裝置者 夕署卜發明所能夠應用的光電裝置並非限定為液晶顯示裝 ^ EL (〇LED;〇rganicLight200914933 IX. Description of the Invention: [Technical Field] The present invention relates to an optoelectronic device and an electronic device suitable for display of various information. ^ [Prior Art] Generally, a liquid crystal display device which is a type of photovoltaic device mainly has a liquid crystal display panel, which functions as a display panel, and is formed by sandwiching liquid crystals with two substrates; and illumination The device is composed of a light guide plate having a light source such as an LED (Light Emitting Diode) on an end surface. Here, the driving ic system for driving the liquid crystal display panel is provided on the substrate of the liquid crystal display panel, and is connected to an external electronic device through a flexible printed circuit board (FPC: Flexible Printed Circuit). In such a liquid crystal display device, the illumination device is housed in a frame formed of a resin frame, and the liquid crystal display panel is bonded to the frame by a double-sided tape. Further, in order to increase the strength of the liquid crystal display device, the constituent elements of the frame may be different from the resin frame. In recent years, there has been a method of designing a frame by integrally molding a resin frame wood and a metal frame by insert molding or the like to advance the strength of the display device. The door ±α is also disclosed in the patent document 1 of the other six patents, and the frame is formed into a body and the frame is configured to be capable of the right side of the outer casing and the frame, and the right ancient engraving is 1 r _ 令1 dry, this ancient The ancient make-up (two-dimensional structure) 'shell has rigidity to the twist and the deflection, and the strength is ensured. Patent Document 1: Japanese Laid-Open Patent Publication No. 2002-221 706 No. JP-A-2002-221 706. The content of the invention is to be solved. However, since the above-mentioned conventional liquid crystal display device uses the outer/V of the liquid crystal module, The member has a front side outer casing and a rear side outer casing and a fixed spacer for fixing the outer casings. Therefore, there is a problem in that it is difficult to reduce the thickness and size of the photovoltaic device. In addition, in recent years, as the market demand for thinning of photovoltaics has increased, the thickness of the frame has also been demanded. Since the frame formed of the resin frame is shaped and deformed, there is a lack of strength. Therefore, it is proposed that the wood structure is improved by the composite structure in which the frame 6 and the metal portion are composed of the resin portion and the metal portion. . The present invention has been made in view of the above problems, and an object thereof is to provide a frame having a sufficient strength to be formed. (Means for Solving the Problem) In an aspect of the invention, the photovoltaic device includes: a frame including a base portion and a resin portion; and a display panel housed inside the resin portion; The metal portion is integrally molded with the resin portion, and at least a portion of the end portion is embedded in the resin portion in a state T in which the end portion is bent toward the display panel side. The photovoltaic device is provided with a display panel and a frame. The display panel is fixed by busy wood. The frame is formed by integrally forming a metal portion and a resin portion. All of the genus = in the end-curvature state, at least partially buried in the end portion;; in the inside of the resin portion. Since the frame is formed by the metal portion and the resin portion in the state where the end portion is bent, the strength of the frame body is still 320, 200914933 even if it is thinly formed. That is, since the above-mentioned end portion of the metal portion has a resistance to be accommodated: the hitting is increased by the thickness of the metal portion, and the photoelectric mounting degree can be improved. In addition, at least part of the 'end portion is embedded in two: this is sufficient to enhance the dimensional precision by the anchoring effect and to improve the dimensional precision and the lifting of the genus and the tree furnace. The wrong effect is to prevent the adhesion due to gold, and the expansion! The shedding due to the difference in the number can form a frame that is excellent in tree shootability. In addition, the display panel is received (4), and the cushioning effect by the resin portion is additionally added to ensure that the panel is prevented from being broken. In the other aspect of the invention of the invention of the gold 2, the "photoelectric attack has a frame, the system, the tree and the moon, and the display panel, which is housed in the resin part. The frame is the metal part and the resin part. The one end is formed by being integrally formed; and the end portion of the gold small 1/end portion is folded back toward the display panel side. The crucible is embedded in the inside of the resin portion. ί The above photoelectric device is provided with a display panel and a frame. The display panel is borrowed from the king = fixed. The frame is formed by integrally forming a metal portion and a tree wax portion. In the state where the gold small 1/end portion is folded back toward the display panel side, the end portion is placed inside the grease holding portion. When the end portion of the metal portion is folded back, the end portion is in a state of being folded back. Therefore, the force of the viewing side of the electric device and the force applied to the photoelectric device are replaced by (4) Qu, bending, impact, etc., so the degree of ambiguity is clarified by the turning-back part, and the other part of the two-position of the optoelectronic device is improved by burying the inside of the (4) part. After the bottom of the metal portion is buried, the difference between the end portions of the fourth portion is immersed by the resin portion π, and at least the end portion of the metal portion is sufficiently rigid to be inserted into the resin portion by the anchoring effect. And can rely on sex). In the case of the base metal portion (the other aspect in which the dimensional accuracy is improved and the part can be attached), the port of the resin portion is higher than the end portion of the metal portion. Therefore, in the case of the display panel, the member such as the touch panel is overlapped with the resin portion which is applied to the metal end portion of the photovoltaic device to relieve the stress of the display panel. "The effect of the abnormality, etc.. The whole part of the 俜 屮 屮 并 并 并 ' ' ' ' ' ' 前述 前述 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县- In the aspect, the metal part of the inside of the frame is the Xia N station, |5 - , ^ V hunting shovel, which can improve the dimensional precision of the %m placed in the frame. Further, in the other aspect of the front side of the electric shield of the display panel or the like which is placed in the frame by the above-mentioned metallic property, the bottom of the frame is raised. & H Therefore, the electrical shielding property of the display panel or the like is determined by the electric device of the ί2 2 electric device. In the aspect, the metal portion is secured to the inside of the resin portion. Thereby, the strength of the frame is ensured, and the display panel is protected by the buffering effect of the resin portion, and it is not necessary to additionally fix the shell. The effect of the member being a thinner electrical panel in the above-mentioned light. The end of the end is attached to the front of the metal portion of the front (four). In this way, the thickness of the panel can be folded back and folded. (4) The thickness of the panel in the thickness direction is not displayed, and the can is formed in the above-mentioned optoelectronic packaging - At. is formed by folding back into multiple segments. 2:7:, the aforementioned end strength of the metal portion. A ^This can Further improving the light (four) of the other metallographic parts of the above-mentioned photovoltaic device by crimping (h-work-proof, bending, bending, impacting) has a protective display panel to end the electricity: In the two aspects of the second aspect, the resin portion is opposed to and held by: the two space portions are in the same manner as the metal portion convex portion. "In the front part: the dream shape: two: covering the aforementioned tree wax portion Area material plus, the above metal part and the above The addition of the system 0 is sufficient to increase the strength of the photovoltaic device. In other aspects of the electrical device, the metal portion has a hole or a ridge of the metal portion of the Bébé tooth, and the foregoing In the resin portion, the area of the surface of the surface of the surface of the surface of the surface of the portion of the surface of the portion of the surface of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the portion of the resin portion is increased. In one aspect of the photovoltaic device, the metal portion has a concavo-convex shape penetrating through the surface of the genus (4) or formed on the surface of the metal portion. 320491 9 200914933 The method of covering the hole or the concave-convex shape is described in the manner of covering the hole or the concave-convex shape. Formed as one of the above-mentioned holes, it also includes a member of the bend of the metal portion which is changed into a part, and a part of the portion is opened. In this case, the area of the metal portion and the tree (4) are increased, and the dog can increase the strength of the photovoltaic device. In still another aspect of the invention, it is possible to construct a display portion which is injured by an electronic device. u Electric Apparatus [Embodiment] Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. The following embodiments are for applying the present invention to a liquid crystal display device. The photovoltaic device to which the invention can be applied is not limited to the liquid crystal display device EL (〇LED; 〇rganicLight)
Diode,有機發光二極體)、電漿面板等者。 [液晶顯示裝置] , —第1圖係本實施形態中的液晶顯示裝置1〇〇的 圖。弟2圖係第!圖所示之液晶顯示裝置⑽在切斷 的剖面圖。 Λ > 如第2圖所示,液晶顯示裝置1〇係主要由照明襞置9 以及液晶顯示面板(顯示面板)2〇戶斤構成。液晶顯示面板 係與導光板11的上表面相對向而配置。 照明裝置9係由導光板U、反射片14、光源部15所 ^成。反射片u係配置於導光板u的下表面。光源部15 係配置於導光板11的端面,具有屬於點光源之複數個LED 16。從各LED 16射出的光L係進入導光板u内,藉由在 導光板11的上下表面間反覆反射而改變方向,而自^表面 320491 10 200914933 射出往外部。射出的光L係往液晶顯示面板20前進。 • 液晶顯示面板20係具有與導光板n的發光面積大致 •相同的顯示面積。液晶顯示面板20係,隔介密封件3貼合 玻璃等基板1及2以形成晶室(cell)構造,並將液晶4封 入其内部而構成。液晶顯示面板20係於基板1、2各自的 外表面上具有偏光板5。 於知、明裝置9與液晶顯示面板2〇之間係設置有例如 ^擴散片12、稜鏡片13以作為光學片。擴散片12係具有將 自導光板11射出的光L予以全方位地擴散之作用。稜鏡片 13係具有將光L集光於液晶顯示面板2〇之作用,且具有 使。面為大致二角形的稜鏡形狀往一邊的方向(與該剖面 垂直的邊之方向)延伸配置而成之形狀。從導光板u射出 的光L係在通過該等光學片後,再穿透液晶顯示面板2〇 從而進行照明。 於液晶顯示面板20係藉由C〇G(Chip On Glass ;覆晶 (玻璃基板)技術,而將為液晶驅動用ic(driver ;驅動器) 的驅動IC40予以直接安裝。於液晶顯示面板2〇的端部係 連接有FPC(Flexible Printed Circuit ;可撓性印刷電路 板)51 ’驅動IC40的一部分的端子係透過形成在液晶顯示 面板20上的配線52而連接至FPC 51。於FPC 51的另— 端係設置有連接g 51a(參照第j圖)。外部的電子機器係 電性連接至連接器51a。驅動IC41係根據經介Fpc Η而 供給的來自外部的電子機器之控制信號來驅動液晶顧示面 板20的驅動電路。藉此,控制液晶4的配向狀態。 320491 11 200914933 …、月衣置9(亦即,導光板π、反射片14與光源部i5) 係嵌入在由樹脂部及金屬部形成的框狀之框架63的開口 部。並且,在框架63,擴散片12、稜鏡片13之光學片 :置在於導光板11的上表面上。液晶顯示面板20係例如 藉由具有遮光性之框狀的雙面膠帶21,以將框架63 口部予以覆蓋之方式黏合於框架63而安裝。液晶顯示面板 2 0係收容於樹脂的内部。 (框架的形狀) 接著,針對框架63的形狀詳細說明。框架63係 =61與金屬部62構成。框帛63係含有樹脂部61盘金 體成形而成之樹脂材料。樹脂部61主要形成框 木63的外形,金屬部62係具有提升㈣6 ,之特徵。框架63係以如下方式形成:將金屬部= =具中,再將溶化的樹脂部61注入上述模具中包覆金屬 =2並固化、而成所謂的㈣式(insert)成形。在如此的 =63中’藉由金屬㈣獲得提升框架強度之效果,並 且藉由樹脂部61獲得讀伴盘链_ 料保舆顯不面板的尺寸精度及防止 t顯示面板之效果以及等同緩衝器等的缓衝 超。結果,就框架整體而言,耐㈣度、耐掉 耐振動強提升。 _金屬部62係能夠依所在位置分為端部他、另一端部 咖、及底部62c。端部62a係金屬部62之中,位 圖中的虛線框80a内的區域之部分。介p 、 丨刀亦即,端部62a係為 位於由FPC 51所包央的部分之全屬 a係為 炙金屬邛的端部,即第1圖之 320491 12 200914933 平面圖所表示的液晶顯示裳置⑽的外框的4邊之中的 FPC 51所覆蓋之部分。另—端部咖係金屬部62之中, 位於虛線框8Gb内的區域之部分。亦即,端部咖係為位 於未被FPC 51包挾的部分之金屬部的端部。底部 不金屬部62之中’位於虛線框8〇a内的區域及虛線框‘ 内的區域以外的區域之部分。 另外,雖,然第2圖顯示的液晶顯示裝置1⑽的金 62係從端部62a到端部62b以單一零件的形式構成,^ 發明能夠應用的形態並非以於該構成。例如,為了框苹 63設計上的方便,端部㈣的金屬部與端部伽亦可為實 體上为離的兩個金屬部。 …、 在本實施形態中,由於在端部62a上配置有Fpc 等的關係,因此第2圖的金屬部62的虛線框,内的端部 62a的形狀其高:度係被限制在第2圖的且由於虛線框 _内的另-端部62b的形狀之高度625^卟還高,因 此無法將端部62a的形狀形成為與端部⑽相同。亦即, 金屬部62係成形為—邊的端部之高度低於另一邊。 一另一方面,能夠考慮如第3圖的液晶顯示裝置1〇〇a 斤々不將至屬# 62的端部62a予以f、曲而配合樹月旨部 =見度之方法。然而,在如此的端部咖之形狀並無法 提鬲液晶顯示裝置1 〇〇a的強度。 一因此,本實施形態的液晶顯示裝置100係如第2圖所 二金屬部62的端部62a係形成為折返至樹脂部61内部。 端郃62a係藉由例如捲邊(hemming)加工而形成。另外,於 320491 13 200914933 折返的端4 62a亦可具有間隙。藉此,由於能夠將端部 之f度抑制在金屬部62厚度的2倍左右,便能夠使在不超 過间度61y的範圍内形成端部_。此外,金屬部的底 部62c與金屬部62的折返端部62a之段差(間隙)7〇係以 樹脂部61填埋。如第2圖的虛線框8〇a所示,折返的端部 62與金屬部62的底部62c之間存在間隙:70,且間隙7〇 由樹月旨部61所填埋。並且,端部心係以折返的形狀,將 广端部62a的至少一部分埋入於樹脂部61内部,因此,與第 ί 3圖所示的液晶顯示裝置」_相比較,能夠提升液晶顯示 裝置100的财受撞擊等之強度。此外,端部他的至少一 部係埋人於樹脂部6卜因此(藉由錢效果(繼horing f feet))能夠堅固地固定金屬部62(提升尺寸精度度 '可 罪度)。另外,捲邊加工並非限定於將前端部彎曲丨8〇度之 形態,亦可為在彎曲之捲邊部具有些微的間隙而使樹脂流 入該間中之構成。捲邊彎曲方向是只要將前端彎曲 (度即可,但捲邊彎曲方向並不受實施例所限定。此外,亦 可形成為在捲邊彎曲部的中途再多形成一個彎曲部之構 成’因f曲部成為一般的2倍的金屬部故得以進一 強度。 第4圖係其他實施形態的液晶顯示裝置i〇〇e的剖面 圖。如第4圖所示,金屬部62的位於虛線框内的端部62& 係向樹脂部61側折返而成形。藉此,端部㈣係在與Fpc 51相接之部分形成帶圓弧的形狀,因此能夠防止FPC 51 因為與端部62a的接觸而造成之斷線與破損的發生。另 320491 14 200914933 ^HM2a的形狀,會有樹脂部61的角部分與Fpc51 .y 2形。在該情形中,較宜將樹脂部61的角部 為帶圓弧的形狀。藉由如此的方式,剩防止因 為FPC 51與樹脂部61的条邱八从社Λ 的斷線與破損。 ”的接觸而造成之FPC 51 61 62& 且金屬部62的端部仏係折返並埋 f 内部。藉此,FPC51係沿著突出的樹脂部㈣ 曲因此FPC 51不會在全屬m a 鱼处执 孟屬邛62的端部62a,彎曲成為銳 角’此夠防止因為彎曲的庫力 斷線。 應力之集中造成FPC51的損傷與 第1 〇圖係液晶顯示裝置10ί)由 如第10圖所- u , 的框架63的斜視圖。 邪乐1 υ圖所不,框架63的全®卹R0 Α ιχ Λ山j 〇_、 町鱼屬邛62與樹脂部61係進行 内肷八成形而成為一體。並且存 架63的内側面or即,载=日ζ在有金屬部62露出在框 八R9 戰置液日日頦不面板20等的面)之部 具有金屬部62露出在框架63的外側面(亦 八卩示裝置_的外表之非内側面的面)之部 刀62y。另外,在液晶顯示裝 面(底部)的—面亦露出。亦即,金屬中’屬f底 的内側面之部分62x的背面係 ::在框架63 咖。藉此,W62x,能f外側面之部分 ^ 62y ^ ^ . ,、電屏蔽性的提升,在部 刀吻%㈣求耐受撞擊等之強度的 脂部W的部分係能夠期待確保與顯示 此外就树 防止傷害顯示面板之效果缓 、尺寸精度及 予丨·) %衝益等的緩衝效果。 320491 15 200914933 於金屬部62的底部62c係設置有開縫72與孔74。孔74 係用於内嵌式成形時的金屬部部62之定位,且有助於組 裝。 、、 第11圖係用來說明將反射片丨4與導光板丨丨固定於 框架63之說明圖。第U圖(3)係第1〇圖中的框架⑽在切 斷面XI-XI’切斷後的剖面圖。其中,圖示包含反射片14 與導光板11。第11圖(b)係反射片14(或導光板14)的平 面圖。第11圖(c)係框架63的平面圖。如第u圖(3)所示, 在樹脂部61,於與金屬部62的開縫72相對應之位置設置 有缺口部76。設置在反射片14與導光板21之以平面視之 非在上下左右對稱的4個凸部78(第11圖(b))係嵌合於該 缺口部76,以幫助反射片14與導光板^的固定、組裝。 開縫72及缺口部76於金屬部62及樹脂部61分別設置 以平面視之非上下左右對稱,開縫72係如第u圖⑷所 不’能狗藉由開缝72來目視確認反射片14或導光板u 勺凸邛78。藉此,能夠謀求防止反射片 表/背的裝設錯誤而提升可靠度。 ¥ ,第12圖顯示單單金屬部62的整體的斜視圖,於第 13圖顯示第12圖中的金屬部62在切斷面",切斷後的斜 ,圖。如# 12圖所*,僅配置Fpc51之金屬部62的端部 a部分其底面並未朝垂直方向立起而向顯示面板2〇側折 式彎^的端部⑽収在以其底面朝垂直方向立起的方 ^十点^走,再向顯不面板2〇側折返。因此,端部62a係設 ’、’、比其他的端部62b低。亦即,端部62b係如第13 320491 16 200914933 圖所示,先彎曲成L字型,再將前端部折返。 .方式,便能夠使液晶顯示裝置100的耐壓強度、9 , 度、耐震動強度提升。 又 、彳 屬如第14圖所示,亦可將框架63構成為:將金 63’的外二出在框架63的内側面,並以樹脂部61覆蓋框架 L Λ? 〇 5 20 專的尺寸精密度,又,能夠使電屏蔽性提升。 ,-出:Si框架63係如第15圖所示,亦能夠設計為:不 :出=4,把樹脂部61構成在框架63的内側面及外侧 :包能夠設計為金屬部的所有面皆由樹脂部61 、強度,且树知部61成為緩衝器 t ^ 顯示面板20等。 野-“夠保錢晶 形狀=^亦能_計為將端部咖多段折返之 高;杨狀,亦能夠將高度抑制成比端部⑽的 ‘1二,不超過高度一 液晶顯H 2 成為折返多段之形狀,能夠提高 日日頌不裝置100b耐受撞擊等之強度。 100c - 弟/圖的液晶顯示梦署丨^ α 的端部_亦可以與金屬部62^,斤示,金屬部62 81之方(f㈣成。此❹下=向域财—定空間 61。亦即,於樹脂㈣=::=形成樹脂部 0曰#形成凸部61x,並且金屬 320491 17 200914933 部62的端部62a係以被覆凸部6ΐχ的方式彎曲。藉由如此 方式,將金屬部62嵌入至樹脂部61,樹脂部61與金屬部 .62便固定,而能夠提高液晶顯示裝置10〇c的強度。 第8圖係另一其他實施形態的液晶顯示裝置丨〇〇d的 剖面圖。在該實施例中,在金屬部62的折返端部6%設置 有孔61z。於第9圖顯示液晶顯示裝置1〇〇d 端部.的斜視圖。在第9圖中,端…2a係在端 r的中央部62aa被挖空而形成孔61z。並且,孔61z係在框 ^ 63 -體成形時由樹脂部61所填埋。藉由如此方式,妒 2將樹脂部61後入至金屬部的孔61z之形狀,而能夠提 :广不裝置刪的強度。此外,除了孔— 由在金屬部62的表面設置凹凸,框: 部Η嵌人至金屬部的凹凸部 广成為將樹月曰 ⑽與樹脂部61的密接面積大 =P形成為金屬部 顯示裝置咖的強度。 域,而亦能约提高液晶 [變形例] 接著,針對本發明的變形例進行說明,..^ 的液晶顯示裝置1〇〇及⑽b至 二月上述貫施形態 屬部62的高度提高上 =了施加於金 金屬部的端部㈣㈣部折返成/為裝置的強度,而將 本發明的液晶顯示裝置,並非^开二然而,作為能夠應用 _ 丄开从此為限。 一奴而言,在折返金屬部 述端部具有-定長度時才能夠^相情形中,只有在上 在金屬部的端杳"2a的長度二二:理性的折返。然而, 又'之晶顯示裝置1〇〇及l〇〇b 320491 18 200914933 至1〇大0d短時,是無法完全地折返形成端部62a。 一口此、在本發明的變形例中,係將端部如第$圖 所示_曲成L字而形成。藉由如此方式,即使端部⑽的 長ί為”、,法進行折返的長度,亦由於將端部623加以彎曲 的量’與第3圖的液晶顯示裝置相比較,能使金屬部 62覆蓋框架63的外形之面積增加,而能夠提高液晶顯示 裝置100e耐受撞擊等之強度。 ί 另外如第16圖所示,於金屬部的端部62a的表面 上設置凹凸部90與孔91,藉此’金屬部62與樹脂部、的 密接面積增加’而能夠提高液晶顯示裝置1 G G e的強度。其 中,凹凸部90係例如,可為橢圓狀的凹處9〇a,除此之外, 亦可為從表面挖掉圓柱的一半之形狀的溝_。此外,亦 可形成複數個溝90b。孔91係除了圓柱狀的孔91a之外, 亦包括將金屬部6 2的f曲部的—部加以變形,使棒狀的形 :¾/成而產生孔91b等。藉由設置孔91b並以樹脂部Η 填埋,樹脂部61便嵌入至金屬部的孔仙。亦即,金 6-、與61的密接面積增加。因此,能夠提高液晶顯 不裝置100e的強度。 在上述的實施別中’雖然是藉由内嵌式成形而形成框 采63,但亦能夠藉由外包式(〇utsert)成形來形成。 [電子機器] 接著,參照第17圖,針對能夠應用上述實施形態 ::顯示裝置1〇〇、10()13至i,的電子機器的具體例:行 320491 19 200914933 首先’針對將上述的各實施形態的液晶顯示 .應用於可攜式個人電腦(所謂的筆記型電腦)的^ 10( 行說明。第17圖⑷係顯示該個人電腦的才冓成、2例 圖。如該圖所示,個人電腦710係具備:主成之斜視 具備有鍵盤711 ;以及顯示部7丨3 係 顯示裝置100。 係應用有本發明的液晶 接者,針對將上述的各實施形態的液晶領干# 明。第π圖⑻係顯亍,的顯不部之例進行說 圖所示,行動電話7 2 0 構成之斜視圖。如該 還具備受話口 722、送話操^之外, Μ及顯不部724。 另外’作為能夠應用本發 % 至肠的電子機器,除月=曰曰顯示裝置⑽、亀 電話之外,還约舉出:液…,圖:員不的個人電腦與行動 攝影機、車用導航裝置、;:二、觀二窗型物 文書處理器、工作站、旦' 電子5己事薄、計算機、 等。 %像電話、咖終端機、數位相機 [產業上的利用可能性] 依據本發明’光電裝 面板係藉由框架而固定。4 λ /備頌不面板與框架。顯示 形者。金屬部係在端部二木係將金屬部與樹脂部-體成 部。由於金屬部的端部H狀態下固定於樹脂部的内 厚度增加,亦能夠提返的形狀’因此,金屬部的 能夠廣泛地應用在液晶裝置撞擊等之強度。因此’ '、电激舍光(Electroluminescence) 320491 20 200914933 =等光電襄置與電子機器,例如,以行動電話與個人電 細:為首、液晶電視、觀景窗型/螢幕直 用導繼、呼叫器、電泳裝置、電子記事薄、計:機車 文書處理為、工作站、影像電話、p〇s終端機、具備觸於 面板的電子機器、具備電子發射元件的裝置(FED: Field ElD1SS1C)n DlSplay(場發射顯示器)、或者 SCCED : T^77TT-ction Electron Emitter Dispiay(*®« 電子發射顯不器))等。 【圖式簡單說明】 第1圖係本發明實施形態中的液晶顯示裝 圖。 第2圖係實施形態的液晶顯示裝置的剖面圖。 第3圖係顯示實施形態以外的液晶置 的一例之圖。 |曰]d囱圖 第j係在樹脂部的端部超出金屬部的端部之狀熊下配 置時^實施形態中的液晶顯示χ置的剖面圖。^ :5圖係變形例的液晶顯示裝置的剖面圖。 第6圖係將金屬部的端部 中的液晶顯示裝置的剖面圖。夕1又絲時的實施形態 —第7圖係以保持有—定空間之方式將金屬部折返時的 只施形嘘中的液晶顯示裝置的剖面圖。 、 第=係在金屬部的端部設置孔時的實施形態 日日絲員不裝置的剖面圖。 從 第9圖係設置有孔之金屬部的端部的斜視圖。 320491 21 200914933 第l 〇圖係貫施形知的框架的斜視圖。 第1Γ圖(a)至(C)係實施形態的框架的剖面圖。 第12圖係實施形態的金屬部的斜視圖。 第13圖係在切斷面B-B,將金屬部切斷後的斜視圖。 第14圖係將金屬部配置於框架的内側面時的框架的 斜視圖。 μ 第15圖係將金屬部固定於樹脂部的内部時的框架 斜視圖。 ’、、 第16圖係變形例的金屬部的端部的斜視圖。 第17圖(a)及(b)係顯示應用本實施形態的液晶顯糸 装置之電子機器的例之圖。 ^ 【主要元件符號說明】 1、: A 2基板 3 密封件 4 '液晶 5 偏光板 9 照明裝置 11 導光板 12 擴散片 13 稜鏡片 14 反射片 15 光源部 16 LED 20、 1〇〇 、 100a 至 100e 液晶顯不面板 21 雙面膠帶 40 驅動IC 51 FPC 51a 連接器 52 配線 61 樹脂部 6lx 凸部 61y 尚度 6lz 孔 62 金屬部 22 320491 200914933 62a 金屬部的端部 62aa 金屬部的端部的中央部 62b 金屬部的另一端部 62c 金屬部的底部 62y 高度 63 框架 70 間隙 72 開縫 74 孔 76 缺口部 78 凸部 80a、 80b虛線框 90 凹凸部 90a 凹處 90b 溝 91 子L 91a 子L 91b 孔 710 個人電腦 711 鍵盤 712 主體部 713 顯示部 720 行動電話 721 操作按鍵 722 受話口 723 送話口 724 顯示部 L 光 23 320491Diode, organic light-emitting diodes, plasma panels, etc. [Liquid crystal display device], Fig. 1 is a view showing a liquid crystal display device 1A according to the present embodiment. Brother 2 is the first! The liquid crystal display device (10) shown in the figure is cut away from the cross-sectional view. Λ > As shown in Fig. 2, the liquid crystal display device 1 is mainly composed of an illumination device 9 and a liquid crystal display panel (display panel). The liquid crystal display panel is disposed to face the upper surface of the light guide plate 11. The illumination device 9 is formed of a light guide plate U, a reflection sheet 14, and a light source unit 15. The reflection sheet u is disposed on the lower surface of the light guide plate u. The light source unit 15 is disposed on the end surface of the light guide plate 11 and has a plurality of LEDs 16 belonging to the point light source. The light L emitted from each of the LEDs 16 enters the light guide plate u, and is redirected by the reverse reflection between the upper and lower surfaces of the light guide plate 11, and is emitted from the surface 320491 10 200914933 to the outside. The emitted light L is advanced toward the liquid crystal display panel 20. • The liquid crystal display panel 20 has a display area that is substantially the same as the light-emitting area of the light guide plate n. In the liquid crystal display panel 20, the spacers 3 are bonded to the substrates 1 and 2 such as glass to form a cell structure, and the liquid crystal 4 is sealed inside. The liquid crystal display panel 20 has polarizing plates 5 on the outer surfaces of the substrates 1 and 2, respectively. Between the device 9 and the liquid crystal display panel 2, for example, a diffusion sheet 12 and a cymbal sheet 13 are provided as an optical sheet. The diffusion sheet 12 has a function of diffusing the light L emitted from the light guide plate 11 in all directions. The cymbal sheet 13 has a function of collecting light L on the liquid crystal display panel 2, and has a function. The surface is a substantially rectangular shape in which the shape of the crucible is extended in the direction of one side (the direction perpendicular to the side of the cross section). The light L emitted from the light guide plate u passes through the optical sheets and then passes through the liquid crystal display panel 2 to be illuminated. The liquid crystal display panel 20 is directly mounted on the liquid crystal display panel 2 by a C〇G (Chip On Glass; flip chip (glass substrate) technology) for the driver IC 40 for liquid crystal driving ic (driver). The terminal is connected to an FPC (Flexible Printed Circuit) 51'. The terminal of a part of the driver IC 40 is connected to the FPC 51 through the wiring 52 formed on the liquid crystal display panel 20. The other is the FPC 51. The terminal system is provided with a connection g 51a (refer to the figure j). The external electronic device is electrically connected to the connector 51a. The drive IC 41 drives the liquid crystal according to a control signal from an external electronic device supplied via the Fpc Η. The driving circuit of the display panel 20, thereby controlling the alignment state of the liquid crystal 4. 320491 11 200914933 ..., the moon clothing 9 (that is, the light guide plate π, the reflection sheet 14 and the light source portion i5) are embedded in the resin portion and the metal The opening portion of the frame-shaped frame 63 formed in the portion. Further, in the frame 63, the optical sheet of the diffusion sheet 12 and the cymbal sheet 13 is placed on the upper surface of the light guide plate 11. The liquid crystal display panel 20 is, for example, provided with a light-shielding property. Box The double-sided tape 21 is attached to the frame 63 so as to cover the mouth of the frame 63. The liquid crystal display panel 20 is housed inside the resin. (Shape shape) Next, the shape of the frame 63 will be described in detail. The frame 63 is composed of a metal portion 62 and a metal portion 62. The frame 63 includes a resin material in which a resin portion 61 is formed of a gold plate body. The resin portion 61 mainly forms the outer shape of the frame wood 63, and the metal portion 62 has a lift (four) 6 characteristic. The frame 63 is formed by injecting the molten metal portion 61 into the mold, and coating the metal with the cladding metal = 2 and solidifying it to form a so-called (4) insert molding. In the case of =63, the effect of the strength of the frame is obtained by the metal (4), and the reading of the companion disk chain is obtained by the resin portion 61. The dimensional accuracy of the panel is prevented and the effect of the t display panel and the buffer of the equivalent buffer are prevented. As a result, the overall resistance of the frame is four (degrees), and the resistance to vibration is increased. The metal portion 62 can be divided into the end portion, the other end portion, and the bottom portion 62c according to the position. The end portion 62a is Among the metal portions 62, The portion of the region in the dashed box 80a in the figure. The p portion, the trowel, that is, the end portion 62a is the end portion of the portion belonging to the FPC 51, which is the end of the 属 metal ,, that is, the first portion. Fig. 320491 12 200914933 The portion of the four sides of the outer frame of the liquid crystal display (10) is covered by the FPC 51. The other end of the metal portion 62 is located in the area of the dotted frame 8Gb. In other words, the end portion is the end of the metal portion of the portion that is not covered by the FPC 51. The bottom portion of the non-metallic portion 62 is located in a region outside the dotted line frame 8A and a portion other than the region inside the broken line frame '. Further, although the gold 62 of the liquid crystal display device 1 (10) shown in Fig. 2 is constituted by a single component from the end portion 62a to the end portion 62b, the configuration to which the invention can be applied is not intended to be the configuration. For example, in order to facilitate the design of the frame 63, the metal portion and the end portion of the end portion (4) may be two metal portions separated from each other. In the present embodiment, since the relationship of Fpc or the like is disposed on the end portion 62a, the shape of the inner end portion 62a of the broken line frame of the metal portion 62 of Fig. 2 is high: the degree is limited to the second In addition, since the height 625 of the shape of the other end portion 62b in the broken line frame is still high, the shape of the end portion 62a cannot be formed to be the same as the end portion (10). That is, the metal portion 62 is shaped such that the height of the end portion is lower than the other side. On the other hand, it is conceivable that the liquid crystal display device 1A of Fig. 3 does not apply the end portion 62a of the genus #62 to the curve of the tree. However, the shape of such an end coffee does not improve the strength of the liquid crystal display device 1a. As a result, in the liquid crystal display device 100 of the present embodiment, the end portion 62a of the metal portion 62 of Fig. 2 is formed to be folded back inside the resin portion 61. The end turns 62a are formed by, for example, hemming processing. In addition, the end 4 62a that is folded back at 320491 13 200914933 may also have a gap. Thereby, since the degree of f of the end portion can be suppressed to about twice the thickness of the metal portion 62, the end portion _ can be formed within a range not exceeding the intermediate degree 61y. Further, a step (gap) 7 of the bottom portion 62c of the metal portion and the folded end portion 62a of the metal portion 62 is filled with the resin portion 61. As shown by the broken line frame 8A of Fig. 2, a gap 70 is formed between the folded end portion 62 and the bottom portion 62c of the metal portion 62, and the gap 7 is filled by the tree portion 61. Further, since the end portion is in a folded shape and at least a part of the wide end portion 62a is embedded in the resin portion 61, the liquid crystal display device can be improved as compared with the liquid crystal display device "" shown in FIG. The strength of 100 is affected by the impact of the impact. Further, at least one of the ends is buried in the resin portion 6 so that the metal portion 62 can be firmly fixed (by the horing f feet) (the dimensional accuracy is improved). Further, the hemming processing is not limited to the case where the tip end portion is bent by 8 turns, and the resin may have a slight gap at the curled portion to allow the resin to flow therebetween. The curling direction is as long as the front end is bent (degrees, but the curling direction is not limited by the embodiment. Further, it may be formed to form a curved portion in the middle of the curling portion. Fig. 4 is a cross-sectional view showing a liquid crystal display device i〇〇e according to another embodiment. As shown in Fig. 4, the metal portion 62 is located in a broken line frame. The end portion 62 & is folded and formed on the side of the resin portion 61. Thereby, the end portion (four) is formed in a circular arc shape at a portion in contact with the Fpc 51, so that the FPC 51 can be prevented from coming into contact with the end portion 62a. The occurrence of breakage and breakage occurs. Another 320491 14 200914933 ^The shape of HM2a has a corner portion of the resin portion 61 and an Fpc51.y 2 shape. In this case, it is preferable to round the corner portion of the resin portion 61. The shape of the arc. In this manner, the FPC 51 61 62 & and the end of the metal portion 62 are prevented from being caused by the disconnection and breakage of the FPC 51 and the resin portion 61 from the contact of the resin portion 61. The 仏 system folds back and burys the inside of the f. By this, the FPC51 line is highlighted Resin part (4) Therefore, FPC 51 does not hold the end 62a of the genus genus 62 in the whole genus, and bends to an acute angle 'this is enough to prevent the broken line due to the bending of the coercion. The concentration of stress causes damage to the FPC51 and the first The sinusoidal liquid crystal display device 10 ί) is an oblique view of the frame 63 as shown in Fig. 10 - u. The sinus 1 is not shown, the full-length shirt of the frame 63 R0 Α ιχ Λ山 j 〇 _, 町The crucible 62 is integrally formed with the resin portion 61, and the inner side surface of the storage rack 63, that is, the inner surface of the storage rack, is exposed in the metal portion 62, and is exposed to the frame R9. The portion of the liquid crystal display surface (the bottom surface) of the liquid crystal display surface (bottom) is exposed on the outer surface of the frame 63 (also the surface on the outer surface of the outer surface of the device). Also exposed, that is, the back side of the 62x inner side of the metal is the bottom of the bottom:: in the frame 63. By this, W62x, can be the outer side of the part ^ 62y ^ ^. , electrically shielding It is the part of the fat part W which is able to withstand the strength of the impact, etc. The effect of the damage display panel is slow, dimensional accuracy, and buffering effect such as %. 320491 15 200914933 The bottom 62c of the metal portion 62 is provided with a slit 72 and a hole 74. The hole 74 is used for inlay The positioning of the metal portion 62 during the molding process facilitates assembly. Fig. 11 is an explanatory view for explaining the fixing of the reflection sheet 4 and the light guide plate 于 to the frame 63. Fig. 7(3) A cross-sectional view of the frame (10) in the first drawing after the cut surface XI-XI' is cut. The illustration includes a reflection sheet 14 and a light guide plate 11. Fig. 11(b) is a plan view of the reflection sheet 14 (or the light guide plate 14). Figure 11 (c) is a plan view of the frame 63. As shown in Fig. 3 (3), the resin portion 61 is provided with a notch portion 76 at a position corresponding to the slit 72 of the metal portion 62. Four convex portions 78 (FIG. 11(b)) which are disposed in the plane of the reflection sheet 14 and the light guide plate 21 and are not symmetrical in the upper and lower directions are fitted to the notch portion 76 to assist the reflection sheet 14 and the light guide plate. Fixed, assembled. The slit 72 and the notch portion 76 are respectively provided in the metal portion 62 and the resin portion 61 so as to be symmetrical with respect to the upper and lower sides in a plan view, and the slit 72 is not as shown in Fig. 4 (4). The dog can visually confirm the reflection sheet by the slit 72. 14 or the light guide plate u spoon scoop 78. Thereby, it is possible to prevent the mounting of the reflection sheet/back from being erroneous and to improve the reliability. Fig. 12 is a perspective view showing the entire single metal portion 62. Fig. 13 is a view showing the metal portion 62 in Fig. 12 on the cut surface. As shown in Fig. 12, only the end portion a of the metal portion 62 of the Fpc 51 is disposed so that the bottom surface thereof does not rise in the vertical direction, and the end portion (10) which is folded toward the side of the display panel 2 is closed at its bottom surface. The square that stands in the direction is taken at ten o'clock, and then turned back to the side of the display panel. Therefore, the end portion 62a is made lower than the other end portions 62b. That is, the end portion 62b is bent into an L shape as shown in the figure of 13 320491 16 200914933, and the front end portion is folded back. In the manner, the pressure resistance, the ninth degree, and the vibration resistance of the liquid crystal display device 100 can be improved. Further, as shown in Fig. 14, the frame 63 may be configured such that the outer side of the gold 63' is placed on the inner side surface of the frame 63, and the frame portion L Λ 〇 5 20 is covered with the resin portion 61. Precision, in turn, can improve electrical shielding. -Out: The Si frame 63 is also designed as shown in Fig. 15, and can be designed such that: no = 4, the resin portion 61 is formed on the inner side and the outer side of the frame 63: the package can be designed as all parts of the metal portion The resin portion 61 and the strength, and the tree portion 61 serves as a buffer t ^ display panel 20 and the like. Wild - "Enough to protect the shape of the crystal = ^ can also be _ counted to the end of the multi-section of the end of the coffee; Yang, can also suppress the height to the end of the end (10) '1 two, no more than a height of liquid crystal display H 2 The shape of the multi-segment can be improved, and the strength of the 100b tolerant impact can be improved. 100c - The LCD of the brother/picture shows the end of the 丨^α _ can also be combined with the metal part 62^, the metal, the metal The portion of the portion 62 81 (f (4) is formed. This ❹ = = directional wealth - the space 61. That is, the resin (4) =:: = formed resin portion 0 曰 # forming the convex portion 61x, and the metal 320491 17 200914933 portion 62 The end portion 62a is curved so as to cover the convex portion 6ΐχ. By fitting the metal portion 62 to the resin portion 61 in this manner, the resin portion 61 and the metal portion 62 are fixed, and the strength of the liquid crystal display device 10〇c can be improved. Fig. 8 is a cross-sectional view showing a liquid crystal display device 丨〇〇d according to still another embodiment. In this embodiment, a hole 61z is provided at the folded end portion 6% of the metal portion 62. The liquid crystal display is shown in Fig. 9. An oblique view of the end of the device 1〇〇d. In Fig. 9, the end ... 2a is dug in the central portion 62aa of the end r The hole 61z is formed by the resin portion 61. In this manner, the resin portion 61 is post-introduced into the shape of the hole 61z of the metal portion. It is possible to mention that the strength of the device is not limited. In addition to the hole, the unevenness is provided on the surface of the metal portion 62, and the uneven portion of the frame to the metal portion is widely attached to the resin portion 61. The large area = P is formed as the strength of the metal portion display device. The liquid crystal can also be increased. [Modifications] Next, the liquid crystal display device 1 and (10)b of the present invention will be described. In February, the height of the above-described morphological portion 62 is increased. The end portion (four) (four) portion applied to the gold metal portion is folded back into the strength of the device, and the liquid crystal display device of the present invention is not provided. Application _ 从 从 从 。 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一 一The reentry. However, the 'crystal display device 1〇〇 and l 〇b 320491 18 200914933 is a short time when it is 0d, and it cannot be completely folded back to form the end portion 62a. In one variation, in the modification of the present invention, the end portion is bent into an L shape as shown in FIG. In this manner, even if the length of the end portion (10) is ", the length of the folding process is changed, the amount of bending of the end portion 623 is compared with that of the liquid crystal display device of Fig. 3, and the metal portion can be formed. The area of the outer shape of the cover frame 63 is increased, and the strength of the liquid crystal display device 100e against impact or the like can be improved. Further, as shown in Fig. 16, the uneven portion 90 and the hole 91 are provided on the surface of the end portion 62a of the metal portion. Thereby, the strength of the liquid crystal display device 1 GG e can be improved by increasing the contact area between the metal portion 62 and the resin portion. The uneven portion 90 may be, for example, an elliptical recess 9〇a, or may be a groove _ which is formed by dicing a half of the cylinder from the surface. Further, a plurality of grooves 90b may be formed. The hole 91 includes, in addition to the cylindrical hole 91a, the portion of the curved portion of the metal portion 62, which is deformed so that the shape of the rod is 3⁄4/, and the hole 91b is formed. By providing the hole 91b and filling it with the resin portion ,, the resin portion 61 is fitted into the hole of the metal portion. That is, the contact area of gold 6- and 61 is increased. Therefore, the strength of the liquid crystal display device 100e can be improved. In the above-described embodiment, the frame 63 is formed by in-line molding, but it can also be formed by an outer shape molding. [Electronic Device] Next, a specific example of an electronic device to which the above-described embodiments: display devices 1A, 10() 13 to i can be applied will be described with reference to FIG. 17 : Line 320491 19 200914933 First, The liquid crystal display of the embodiment is applied to a portable personal computer (so-called notebook computer) ^ 10 (line description. Figure 17 (4) shows the talent of the personal computer, 2 examples. As shown in the figure The personal computer 710 includes a keyboard 711 for the squint of the main unit and a display unit 100 for the display unit 7丨3. The liquid crystal connector of the present invention is applied to the liquid crystal stem of the above-described embodiments. The π-picture (8) is an example of the display, and the mobile phone 7 2 0 is shown in the figure. If it is also equipped with the receiving port 722, the sending operation, the display and the display are not shown. Part 724. In addition, as an electronic device that can apply the % to the intestine, in addition to the month=曰曰 display device (10) and the phone, it also cites: liquid..., picture: personal computer and mobile camera, Vehicle navigation device;; 2, view two window type material Processors, workstations, electronic devices, computers, etc. % like telephones, coffee terminals, digital cameras [industrial use possibilities] According to the invention, the photovoltaic panels are fixed by a frame. λ / 颂 面板 面板 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 It is also possible to return the shape. Therefore, the metal portion can be widely applied to the strength of impact of liquid crystal devices, etc. Therefore, 'Electroluminescence 320491 20 200914933 = etc. Photoelectric devices and electronic devices, for example, Mobile phone and personal power: headed by LCD TV, viewing window/screen direct relay, pager, electrophoresis device, electronic notepad, meter: locomotive file processing, workstation, video phone, p〇s terminal Machine, electronic device with panel touch, device with electron emission device (FED: Field ElD1SS1C) n DlSplay (field emission display), or SCCED : T^77TT-ction Electron Emitter D Ispiay (*® « electron emission display)) and so on. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a liquid crystal display device in an embodiment of the present invention. Fig. 2 is a cross-sectional view showing a liquid crystal display device of the embodiment. Fig. 3 is a view showing an example of liquid crystal placement other than the embodiment.曰 d d 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第^ : 5 is a cross-sectional view of a liquid crystal display device of a modified example. Fig. 6 is a cross-sectional view showing the liquid crystal display device in the end portion of the metal portion. The embodiment of the present invention is a cross-sectional view of a liquid crystal display device in a shape-only configuration in which a metal portion is folded back while maintaining a predetermined space. The first embodiment is a cross-sectional view when the hole is not provided at the end of the metal portion. Fig. 9 is a perspective view showing the end portion of the metal portion having the hole. 320491 21 200914933 The first diagram is a perspective view of the frame of the shape. Fig. 1 (a) to (C) are cross-sectional views of the frame of the embodiment. Fig. 12 is a perspective view showing a metal portion of the embodiment. Fig. 13 is a perspective view showing the cut surface B-B with the metal portion cut. Fig. 14 is a perspective view of the frame when the metal portion is placed on the inner side surface of the frame. μ Fig. 15 is a perspective view of the frame when the metal portion is fixed inside the resin portion. Fig. 16 is a perspective view showing an end portion of a metal portion in a modified example. Fig. 17 (a) and (b) are views showing an example of an electronic apparatus to which the liquid crystal display device of the embodiment is applied. ^ [Description of main component symbols] 1. A 2 substrate 3 Seal 4 'Liquid 5 Polarizer 9 Illumination device 11 Light guide plate 12 Diffusion sheet 13 Bracts 14 Reflector 15 Light source part 16 LED 20, 1〇〇, 100a to 100e LCD display panel 21 Double-sided tape 40 Driver IC 51 FPC 51a Connector 52 Wiring 61 Resin part 6lx Projection 61y 尚度6lz Hole 62 Metal part 22 320491 200914933 62a End of metal part 62aa Center of end of metal part Portion 62b Metallic part of the other end 62c Metal part of the bottom 62y Height 63 Frame 70 Gap 72 Slot 74 Hole 76 Notch 78 Concave portion 80a, 80b Dotted frame 90 Concave portion 90a Recess 90b Groove 91 Sub L 91a Sub L 91b Hole 710 Personal computer 711 Keyboard 712 Main body 713 Display unit 720 Mobile phone 721 Operation button 722 Receiver port 723 Send port 724 Display part L Light 23 320491