M425296 五、新型說明: 【新型所屬之技術領域】 置,且特別是有關於一種 本創作是有關於一種電子裝 具有顯示功能之電子裝置。 【先前技術】 ^-般而言’現今薄型筆記型電腦多採用側人式背光模 2配液晶顯示面板之液晶顯示ϋ。習知的液晶顯示面板 =了上偏光>;、下偏光片、彩色丨慮光片、主動元件陣列 土Ϊ以及液晶層。液晶顯示面板主要之厚度來自於用以製 作色;il光層以及主動元件的素玻璃基板。然而,目前素 玻璃基板之厚度多已降至〇3厘米以下,其再繼續 薄化之 空間有限。因此,設計者多將筆記型電腦薄化的主力放在 侧入式背光模組的薄化上。 t知的側入式背光模組包括了發光二極體燈條(LED light bar)、外框(bezei)、膠框(m〇ld frame)、反射片 (Rector)、導光板(lightguideplate)、擴散片(碰驗)以及 ^ 7C膜(brightness enhancement film,BEF)等部材。在習 知技術中,液晶顯示器與系統端(例如筆記型電腦之外殼) 組裝的方式是利用在外框及膠框側邊所預留之多個同軸心 鎖附孔,以螺絲貫穿外框鎖附至膠框上,而確保液晶顯示 态之位置以及整體的結構強度。但在液晶顯示器與系統端 的組裝上往往衍生出搭配性的問題,例如外框及膠框設計 尺寸精度偏差等,而導致組裝困難。此外,由開發薄蜇筆 °己型電腦的角度來看,為了固定液晶顯示器而保留外框及 膠框來鎖附整體結構會造成筆記型電腦薄化受到限制。 【新型内容】 本創作提供一種電子裝置,其可實現優良之薄形化效 果。 本創作提出一種電子裝置,包括外殼以及液晶顯示 器。外设形成容置空間。液晶顯示器配置於容置空間内。 =晶顯示器包括多個光學零組件以及液晶顯示面板。光學 零組件至少其巾之—卡合於外殼巾。液㈣示面板位於光 學零組件上且卡合於外殼中。 在本創作的一實施例中,上述之外殼包括底板、側壁 以^前框。光學零組件位於底板與液晶顯示面板之間。侧 壁環繞底板且與底板連接。前⑽目對於底板且與側壁連 t前框具#卡合結構。光學敎件以及液㈣示面板係 卡合於所述之卡合結構中。 梓=作的—實施例中’上述之卡合結構具有第-凹 才9。液日日顯示面板卡合於第一凹槽中。 凹梓第^作#貝施例中’上述之卡合結構更具有第二 凹n凹槽位於第—凹槽與底板之間。 在本創作的一實施例中’上 極體燈條 元件。發光元件卡合於第二凹槽^ “零組件包括發先 創作的—實施例中,上述之發光秘包括發光二 在本創作的一實施例中,上述之卡合結構更具有延伸 。。延伸部與第二凹财接且朝向遠離㈣之方向延伸。 在本創作的一實施例中,上述之光學零組件更包括-反射片。反射片承靠於延伸部上。 在本創作的-實施例中,上述之光學零組件更包括導 光板以及多個光學Μ。反射片位於延伸部與導光板之 間,而光學膜片位於液晶顯示面板與導光板之間。 在本創作的一實施例中,上述之反射片與底板直接接 觸。 、基於上述,本創作之電子裝置可藉由其外殼取代習知 液晶顯示II之膠框、外框等構件,而使得電子裝置可實現 優異之薄形化效果。 為讓本創作之上述特徵和優點能更明顯易懂,下文特 舉實施例,並配合所附圖式作詳細說明如下。 【實施方式】 、圖1為本創作一實施例的電子裝置的剖面示意圖。圖 2為圖1之電子襞置的立體示意圖。請同時參照圖1及圖 本實施例之電子裝置1000包括外殼1〇〇以及液晶顯示 器200。值得注意的是,在本實施例之電子裝置⑻中, 液日日顯示器細是採無膠框(mold frame) '無外框(bezel)的 設=,而改用電子裝置1〇〇〇之外殼1〇〇來取代習知液晶顯 示器中之膝框以及外框的功能。如此一來,除了電子裝置 1000的材料成本可降低之外,更重要的是,電子裝置⑻ M425296 132c :延伸部 200 :液晶顯示器 210 :光學零組件 211 :發光元件 212 :反射片 213 :導光板 214〜216 :光學膜片 220 .液晶顯不面板 222 :下偏光片 224 :主動元件陣列基板 226 :彩色濾光片 228 :上偏光片 300 :觸控面板 400 :光學膠 N :非顯示區 R :容置空間 X、y、z :方向 11M425296 V. New description: [New technical field] It is especially relevant to one. This creation is about an electronic device with a display function. [Prior Art] ^-Generally speaking, today's thin notebook computers use side-lit backlight modules 2 with liquid crystal display panels. A conventional liquid crystal display panel = upper polarized light; a lower polarizer, a color light guide, an active device array, and a liquid crystal layer. The main thickness of the liquid crystal display panel comes from the glass substrate used to make the color; the il light layer and the active component. However, the thickness of the original glass substrate has been reduced to less than 厘米3 cm, and the space for further thinning is limited. Therefore, the designer has placed the main force of thinning the notebook computer on the thinning of the side-lit backlight module. The side-lit backlight module includes a LED light bar, a bezei, a m〇ld frame, a reflector, a lightguideplate, Diffusion sheet (touch) and ^ 7C film (brightness enhancement film (BEF) and other materials. In the prior art, the liquid crystal display and the system end (for example, the outer casing of the notebook computer) are assembled by using a plurality of coaxial locking holes reserved on the side of the outer frame and the plastic frame, and the screws are inserted through the outer frame. To the plastic frame, to ensure the position of the liquid crystal display state and the overall structural strength. However, in the assembly of the liquid crystal display and the system end, the problem of collocation is often derived, such as the dimensional accuracy deviation of the outer frame and the plastic frame design, which leads to assembly difficulties. In addition, from the point of view of the development of a thin-film pen computer, in order to fix the liquid crystal display, the outer frame and the plastic frame are retained to lock the entire structure, which may limit the thinning of the notebook computer. [New Content] This creation provides an electronic device that achieves an excellent thinning effect. The present invention proposes an electronic device including a housing and a liquid crystal display. The peripherals form a housing space. The liquid crystal display is disposed in the accommodating space. = Crystal display includes a plurality of optical components and a liquid crystal display panel. The optical component is at least in engagement with the outer cover. The liquid (4) indicator panel is located on the optical component and snaps into the housing. In an embodiment of the present invention, the outer casing includes a bottom plate and a side wall to define a front frame. The optical components are located between the bottom plate and the liquid crystal display panel. The side walls surround the bottom plate and are connected to the bottom plate. The front (10) mesh is connected to the bottom plate and connected to the side wall. The optical element and the liquid (four) display panel are engaged in the engaging structure.梓=作— In the embodiment, the above-described engaging structure has a first concave 9. The liquid daily display panel is engaged in the first recess. In the case of the embossing method, the above-mentioned engaging structure further has a second concave n-groove between the first groove and the bottom plate. In an embodiment of the present invention, the upper pole light strip element. The light-emitting element is engaged with the second recess, the component includes the pre-authored embodiment, and the above-mentioned light-emitting secret includes the light-emitting device. In an embodiment of the present invention, the above-mentioned snap-fit structure has an extension. The portion is connected to the second recess and extends away from the direction of (4). In an embodiment of the present invention, the optical component further includes a reflective sheet. The reflective sheet bears against the extension. In one example, the optical component further includes a light guide plate and a plurality of optical cymbals. The reflective film is located between the extending portion and the light guide plate, and the optical film is located between the liquid crystal display panel and the light guide plate. The above-mentioned reflective sheet is in direct contact with the bottom plate. Based on the above, the electronic device of the present invention can replace the plastic frame of the conventional liquid crystal display II, the outer frame and the like by the outer casing, so that the electronic device can achieve excellent thin shape. In order to make the above features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail below with reference to the accompanying drawings. [Embodiment] FIG. FIG. 2 is a schematic perspective view of the electronic device of FIG. 1. Referring to FIG. 1 and the electronic device 1000 of the present embodiment, the electronic device 1000 includes a housing 1 and a liquid crystal display 200. Therefore, in the electronic device (8) of the present embodiment, the liquid-day display is made of a "mold frame" without a bezel, and the casing of the electronic device 1 is replaced. In order to replace the function of the knee frame and the outer frame in the conventional liquid crystal display, in addition to the material cost of the electronic device 1000 can be reduced, more importantly, the electronic device (8) M425296 132c: the extension portion 200: the liquid crystal display 210: optical component 211: light-emitting element 212: reflective sheet 213: light guide plate 214 to 216: optical film 220. liquid crystal display panel 222: lower polarizer 224: active device array substrate 226: color filter 228: upper Polarizer 300: Touch panel 400: Optical glue N: Non-display area R: accommodation space X, y, z: direction 11