M327036 ,八、新型說明: 【新型所屬之技術領域】 本創作係關於一種液晶顯示裝置。 -【先前技術】 因液晶顯示裝置具輕、薄、小等特點,使其非常適合應用 -於行動電話及個人數位助理(Personal Digital Assistant,PDA)等 設備中。通常,液晶顯示裝置包括一背光模組及一相鄰該背光 極:組之液晶面板。 馨請參閱圖1,係一種先前技術液晶顯示裝置之立體分解示意 圖。該液晶顯示裝置1係一行動電話(圖未示)之顯示模組,其包 括一背光模組10及一相鄰該背光模組1〇之液晶面板11。該背 光模組10包括一膠框12、一反射片14、複數光源15、一導光 板16及一遮光膠帶18。該反射片14、該膠框12、該導光板16、 該遮光膠帶18及該液晶面板11依次自下而上層疊設置,該複 數光源15相鄰該導光板16。 - 該導光板16包括一入光面160及一垂直該入光面160之出 鲁光面162。該膠框12包括二相對較短之第一侧壁121、二相對 較長之第二側壁122及一承載板124。該第一侧壁121及該第二 侧壁122依次首尾相連而形成一環形之第一收容空間(未標 示)。該第一侧壁121對應該入光面160。該承載板124自該第 —侧壁121及該第二侧壁122之内表面(未標示)垂直向該收容空 間内延伸並形成一第二收容空間(未標示)。該光源15相鄰該入 光面160。該遮光膠帶18係一雙面均為黏性之環形黑色膠帶。 a亥液晶面板11包括一顯示區110及一外圍區112,該外圍 區112包圍該顯示區no。該顯示區no之内部包括複數成矩陣 M327036 -排列之薄膜電晶體(圖未示)。該外圍區112包括複數掃插驅 (圖未示)及複數資料驅動線(圖未示),其分別傳輪掃插電=動線 ^料電壓至該複數薄膜電晶體。 及貝 - 請一併參閱圖2,係圖1所示液晶顯示裝置1組裝後之立體 示意圖。該反射片14黏貼於該膠框12之下表面(未標示)。該導 -光板16及該複數光源b收谷於該苐一收谷空間内,該遮光膠 帶209黏貼於該承載板124之上表面及該導光板16出光面162 之四周。該液晶面板收谷於该弟一收容空間並藉由該遮光膠 #帶18固定於該承載板124,該第一侧壁121及該第二侧壁I22 分別對應抵觸該液晶面板11之較短側邊(未標示)及較長侧邊(未 標示)。 通常藉由一金屬外殼(圖未示)將該液晶顯示裝置1之侧邊 框住並與該行動電話之按鍵板等(圖未示)組裝成一體,再將該液 晶顯示裝置1及該按鍵板等收容於一塑膠外殼(圖未示)以形成 該行動電話。該膠框12之侧壁122可將該液晶面板η與該金 •屬外殼隔離,避免由於金屬外殼接觸該液晶面板η侧邊之掃描 _驅動線及資料驅動線所產生之短路,以保證該液晶顯示裝置1 及該行動電話正常工作。 惟,由於該膠框12通常藉由膠框成型模具製造,因受限於 成型技術’该膠框12之第一侧壁121及第二侧壁122通常較厚, 從而當該液晶面板U尺寸一定時,該液晶顯示裝置i沿較短邊 方向之寬度隨較長戀122之厚度增大而增大,即該液晶顯示 =置1位於u邊之邊框車父寬。此外,該液晶顯示裝置丄位於 較短邊之邊框亦有上述不足,不能滿足對液晶顯示裝置工窄邊 框化要求較高之應用。 7 M327036 '【新型内容】 有鑑於此,提供-種邊框較窄之液晶顯示裝置實為 一種液晶顯示裝置,其包括—液晶面板及―邊框。 圍繞於該液晶面板之侧邊,其中位於至少_側邊之邊框係樞 絕緣光學膜片相鄰該液晶面板之側邊所形成。 至少 -種液晶顯示裝置,其包括—框架、—光學膜片及 面板。該框架包括-支撑該液“板之讀板。該光學膜:曰 «框架’其至少-絕緣側邊相鄰該液晶面板之對應側邊。目 松較於先前技術,本創作之液晶顯示裝置於該液晶 一側邊設置-絕緣之光學膜片,該光學膜片可將該夜 板之對應侧邊與其外侧絕緣隔離,以保證該液晶顯示裝置= 常工作,且因該光學膜片遠薄於先前技術之膠框側壁,其可正 液晶面板側邊形成較窄之邊框,從而可較為滿觸液晶= 置窄邊框化要求較高之應用。 、衣 【實施方式】 • 請參閱圖3’係本創作液晶顯示裝置第一實施方式之立體八 鲁解示意圖。該液晶顯示裝置2係一小型顯示模組,如行動電話一二 個人數位助理等便攜設備所採用之顯示模組。該液晶顯示裝置2 包括一背光模組20及一相鄰該背光模組2〇之液晶面板25。該背 光权組20包括一反射片201、一膠框203、複數光源205、一導光 板207及一遮光膠帶209。該反射片201、該膠框2〇3、該導光板 207、該遮光膠帶209及該液晶面板25依次自下而上層疊設置, 該複數光源205相鄰該導光板207。 8 M327036 · 該導光板207包括一入光面27〇、一相對該入光面27〇之側面 • 272、 垂直5亥入光面270之出光面274及一相對該出光面274之 底面276。 該膠框203包括一承載板23〇及二相對之側壁232。該承載板 230係一環形板狀結構,其中央形成一窗口 234,該窗口234對應 -該導光板207。該承載板23〇包括二平行之較短邊(未標示)及二平 行之較長邊(未標示),該二較短邊分別對應該導光板27之入光面 270及侧面272。其中,對應該入光面27〇之較短邊形成複數與該 #窗口234連通之容置槽236,該複數容置槽236分別對應該複數光 源205。該二侧壁232分別從該二較短邊向上延伸。該膠框203之 材夤係塑膠’如聚碳酸酯(p〇lyCarb〇nate,PC)等。 4複數光源205係白光發光二極體(Light Emitting Diode, LED)或紅、綠、藍發光二極體,其相鄰該導光板27之入光面27〇 並分別對應該複數容置槽236。該遮光膠帶209係一雙面均為黏 性之環形絕緣黑色膠帶,其遠薄於該膠框2〇3之侧壁232。 - 該反射片201係一絕緣光學膜片,其係藉由捲軸式 • (Roll-to-Roll,R2R)製程形成並遠薄於該膠框2〇3之侧壁232。該 反射片201包括一主反射區21〇、二側翼213及位於該主反射區 210及侧翼213間之折線215。該主反射區210對應該承載板230及 該窗口234 ’其寬度與該承載板230較短邊之長度相等,其長度 與該承載板230較長邊之長度相等。該二側翼213分別位於該反 射片201之二較長邊,該側翼213之寬度等於該液晶顯示裝置2組 裝後自上而下之總厚度。該主反射區21〇對應該承載板230之部 份及該二侧翼213之上表面係黏性表面。 9 M327036 —.該液晶面板2绝括i^25G — 較短第-側邊况及二平行之較長第二側杜—千丁= 圍該顯示區250,該第-側邊州芬楚一如鱼Λ卜㈣252包 切、邊 弟則邊254位於該外圍區 :"緣亚相互垂直。該顯示區25〇之内部包括複數成矩陣排 列之賴電晶體(圖未不),其用於控制該液晶 -分子(圖未示)偏轉從而顯示書 之液日日 ㈣旧丰-、π〜 2包括複數掃描驅 動線(圖未示),其分別傳輪掃描電壓 I門駐細數㈣電晶體。同—列之複數薄膜電晶體之 >科連接至同描驅動線,同—行之複數薄膜電晶體之源極 連接至同-㈣,_L卜圍區m之複數掃描,鶴線及複數 資料驅動線藉由-軟性電路板(圖未示)連接至該液晶顯示裝置2 之控制電路(圖未示)。 請一併參閱圖4,係圖3所示液晶顯示裝置2組装后之立體示 意圖。該反射片201之主反射區21〇黏貼於該承載板23〇之下表 面,並與該承載板230之窗口 234共同形成一收容空間(未標示)。 —該導光板207收容於該收容空間内,其出光面274與該承截板23〇 鲁上表面平齊。該複數光源2〇5分別設置於該複數容置槽236並相 鄰該導光板207之入光面270。該遮光膠帶209黏貼於該導光板 207出光面274之四周及該承載板230之上表面。 該液晶面板25藉由該遮光膠帶209固定於該承載板230,其 上表面與該膠框203侧壁232之上表面平齊,該第二侧邊254與該 膠框203之外側平齊。該液晶面板25之第一侧邊253分別抵觸該 二側壁23 2。該反射片之側翼213沿折線215朝上彎折並黏貼於該 膠框203之外側及該液晶面板25之第二侧邊254,且與該液晶面 板25之上表面平齊。該二側壁232及該反射片209之側翼213共同 M327036 形^該液㈣示1置2之邊框(未標示)。因該液晶面板25收容於 該边框Θ „亥邊框將該液晶面板25外圍區252之掃描驅動線及資 料驅動線等與外部絕緣隔離,避免掃描驅動線及資料驅動線短 路,從而保證該液晶顯示袈置2之正常工作。 a相幸^於先丽技術,本創作之液晶顯示裝置2將該反射片搬 •侧翼213弓折形成該液晶顯示裝置2之一部份邊框,因該侧翼加 ’係-^緣光學膜片,其可使該液日日日面板%外圍區况之掃描驅動 f及資料驅動線等與其外侧絕緣隔離,避免產生短路,從而保 口丘。亥液日日頒不裝置2之正常工作。且因該反射片2的遠薄於先前 技術之膠框側壁,從而可於該液晶面板25第二側邊254之外侧形 成車乂乍之邊框’進而可滿足對液晶顯示裝置2窄邊框化要求較高 之應用。 _本創作液晶顯示裝置第二實施方式與第一實施方式大致相 同其區別在於·膠框不包括侧壁,反射片對應該承載板較短 邊亦包括二侧翼,·其彎折包覆液晶面板較短之第一侧邊,從而 鲁液晶面板之四侧邊均被反射片之侧翼包覆。 ' 准本創作並不限於上述實施方式所述,如該膠框2〇3亦可 依所而。又。十為具-侧壁或具三侧壁之結構;該液晶顯示裝置2亦 可^叹所而之光學膜片’如該導光板及該液晶面板Μ之間依 人口又置#^片、一增光片及一下偏光片等,並於該液晶面板 5之上表面^又置—上偏光片;該遮光膠帶亦可代替該反射片 〇7形成該液晶顯示裝置2之部份邊框;該反射片2〇1之侧翼213 ,、可=步,折覆蓋該液晶面板25上表面之邊緣。 所述’本創作確已符合新型專利之要件,爰依法提出 利申明。I# ’以上所述者僅爲本創作之較佳實施方式,本創 11 M327036 -作之範圍並不以上述實施方式爲限,舉凡熟悉本案技藝之人士 援依本創作之精神所作之等效修飾或變化,皆應涵蓋於以下申 請專利範圍内。 【圖式簡單說明】 圖1係一種先前技術液晶顯示裝置之立體分解示意圖。 圖2係圖1所示液晶顯示裝置組装后之立體示意圖。 圖3係本創作液晶顯示裝置第一實施方式之立體分解示意圖。 圖4係圖3所示液晶顯示裝置組裝后之立體示意圖。 • 【主要元件符號說明】 液晶顯示裝置 2 背光模組 20 反射片 201 主反射區 210 侧翼 213 折線 215 膠框 203 承載板 230 侧壁 232 光源 205 導光板 207 入光面 270 1侧面 272 出光面 274 底面 276 遮光膠帶 209 液晶面板 25 於頁不區 250 外圍區 252 第一側邊 253 第二侧邊 254 窗口 234 容置槽 236 12M327036, eight, new description: [New technical field] This is a liquid crystal display device. - [Prior Art] Because the liquid crystal display device is light, thin, and small, it is very suitable for applications - in mobile phones and personal digital assistants (PDAs). Generally, a liquid crystal display device includes a backlight module and a liquid crystal panel adjacent to the backlight: group. Referring to Figure 1, a perspective exploded view of a prior art liquid crystal display device. The liquid crystal display device 1 is a display module of a mobile phone (not shown), and includes a backlight module 10 and a liquid crystal panel 11 adjacent to the backlight module 1 . The backlight module 10 includes a plastic frame 12, a reflective sheet 14, a plurality of light sources 15, a light guide plate 16, and a light shielding tape 18. The reflective sheet 14, the plastic frame 12, the light guide plate 16, the light-shielding tape 18, and the liquid crystal panel 11 are sequentially stacked from bottom to top, and the complex light source 15 is adjacent to the light guide plate 16. - The light guide plate 16 includes a light incident surface 160 and a light exit surface 162 perpendicular to the light incident surface 160. The frame 12 includes two relatively short first side walls 121, two relatively long second side walls 122, and a carrier plate 124. The first side wall 121 and the second side wall 122 are connected end to end in sequence to form an annular first receiving space (not shown). The first sidewall 121 corresponds to the light incident surface 160. The carrier plate 124 extends perpendicularly from the inner surface (not labeled) of the first side wall 121 and the second side wall 122 to the receiving space to form a second receiving space (not shown). The light source 15 is adjacent to the light incident surface 160. The light-shielding tape 18 is a ring-shaped black tape which is viscous on both sides. The a-Li LCD panel 11 includes a display area 110 and a peripheral area 112 surrounding the display area no. The inside of the display area no includes a plurality of matrix M327036-arranged thin film transistors (not shown). The peripheral region 112 includes a plurality of sweeping drives (not shown) and a plurality of data driving wires (not shown) for respectively sweeping the power of the wire to the plurality of thin film transistors. And - Please refer to FIG. 2 together, which is a perspective view of the liquid crystal display device 1 shown in FIG. The reflective sheet 14 is adhered to the lower surface of the plastic frame 12 (not shown). The light guide plate 16 and the plurality of light sources b are received in the first valley space, and the light shielding tape 209 is adhered to the upper surface of the carrier plate 124 and the light emitting surface 162 of the light guide plate 16. The liquid crystal panel is fixed in the accommodating space of the slab and is fixed to the carrying board 124 by the visor #18. The first side wall 121 and the second side wall I22 respectively correspond to the short distance of the liquid crystal panel 11. Side (not labeled) and longer side (not shown). Generally, the side of the liquid crystal display device 1 is framed by a metal casing (not shown) and integrated with a key sheet or the like (not shown) of the mobile phone, and the liquid crystal display device 1 and the key sheet are assembled. The device is housed in a plastic casing (not shown) to form the mobile phone. The side wall 122 of the plastic frame 12 can isolate the liquid crystal panel η from the metal shell to avoid short circuit caused by the metal shell contacting the scan_drive line and the data drive line on the side of the liquid crystal panel n to ensure the The liquid crystal display device 1 and the mobile phone operate normally. However, since the plastic frame 12 is usually manufactured by a plastic frame molding die, the first side wall 121 and the second side wall 122 of the plastic frame 12 are generally thicker due to the molding technique, so that when the liquid crystal panel U is sized In some cases, the width of the liquid crystal display device i in the shorter side direction increases as the thickness of the longer love 122 increases, that is, the liquid crystal display=sets the frame width of the frame on the u side. In addition, the frame of the liquid crystal display device located on the shorter side has the above-mentioned disadvantages, and the application for the narrow frame of the liquid crystal display device is not satisfied. 7 M327036 '[New content] In view of the above, a liquid crystal display device having a narrow frame is a liquid crystal display device including a liquid crystal panel and a "frame". Surrounding the side edges of the liquid crystal panel, wherein the at least one side of the frame is formed by pivoting the optical film adjacent to the side of the liquid crystal panel. At least one type of liquid crystal display device includes a frame, an optical film, and a panel. The frame comprises: a reading plate supporting the liquid "plate. The optical film: 曰 «frame" at least - the insulating side is adjacent to the corresponding side of the liquid crystal panel. The liquid crystal display device of the present invention is better than the prior art. An insulating optical film is disposed on one side of the liquid crystal, and the optical film can insulate the corresponding side of the night plate from the outer side thereof to ensure that the liquid crystal display device is normally operated, and because the optical film is thin In the side wall of the plastic frame of the prior art, a narrow frame can be formed on the side of the liquid crystal panel, so that the liquid crystal can be touched more than the application of the framed frame is narrower. [Embodiment] • Please refer to FIG. 3' A schematic diagram of a three-dimensional solution of the first embodiment of the present invention is a liquid crystal display device 2, which is a small display module, such as a display module used in a portable device such as a mobile phone or a two-digit assistant. The device 2 includes a backlight module 20 and a liquid crystal panel 25 adjacent to the backlight module 2. The backlight unit 20 includes a reflective sheet 201, a plastic frame 203, a plurality of light sources 205, a light guide plate 207, and a light shield. The reflective sheet 201, the plastic frame 2〇3, the light guide plate 207, the light-shielding tape 209 and the liquid crystal panel 25 are sequentially stacked from bottom to top, and the plurality of light sources 205 are adjacent to the light guide plate 207. 8 M327036 The light guide plate 207 includes a light incident surface 27, a side surface 272 opposite to the light incident surface 27, a light exit surface 274 perpendicular to the light incident surface 270, and a bottom surface 276 opposite to the light exit surface 274. The frame 203 includes a carrier plate 23 and two opposite side walls 232. The carrier plate 230 is an annular plate-like structure, and a window 234 is formed at the center thereof. The window 234 corresponds to the light guide plate 207. The carrier plate 23 includes two The shorter side of the parallel (not shown) and the longer side of the two parallels (not shown) respectively correspond to the light incident surface 270 and the side surface 272 of the light guide plate 27. Among them, the corresponding light entrance surface 27〇 The shorter side forms a plurality of receiving slots 236 that communicate with the # window 234. The plurality of receiving slots 236 respectively correspond to the plurality of light sources 205. The two side walls 232 respectively extend upward from the two shorter sides. The plastic frame 203 The material is made of plastics such as polycarbonate (p〇lyCarb〇nate, PC), etc. 4 The plurality of light sources 205 are white light emitting diodes (LEDs) or red, green, and blue light emitting diodes adjacent to the light incident surface 27 of the light guide plate 27 and respectively corresponding to the plurality of receiving grooves 236. The light-shielding tape 209 is a ring-shaped insulating black tape which is viscous on both sides, and is far thinner than the side wall 232 of the plastic frame 2〇3. The reflective sheet 201 is an insulating optical film which is driven by a reel. The (Roll-to-Roll, R2R) process is formed and is much thinner than the side wall 232 of the frame 2〇3. The reflection sheet 201 includes a main reflection area 21〇, two side wings 213, and the main reflection area 210. And a fold line 215 between the side flaps 213. The main reflection area 210 corresponds to the width of the carrier plate 230 and the window 234' which is equal to the length of the shorter side of the carrier plate 230, and the length thereof is equal to the length of the longer side of the carrier plate 230. The two side flaps 213 are respectively located on the longer sides of the reflective sheet 201. The width of the side flaps 213 is equal to the total thickness of the liquid crystal display device 2 from top to bottom after assembly. The main reflection area 21 〇 corresponds to the portion of the carrier plate 230 and the upper surface of the two side wings 213 is a viscous surface. 9 M327036 —. The liquid crystal panel 2 includes i^25G — the shorter side-side condition and the second parallel long second side du-thousands = surrounding the display area 250, the first side of the state The fish Λ ( (4) 252 packets cut, the younger brother 254 is located in the peripheral area: " The inside of the display area 25〇 includes a plurality of matrix-arranged electrodes (not shown) for controlling the liquid crystal-molecule (not shown) to display the liquid of the book (4) Laofeng-, π~ 2 includes a plurality of scan driving lines (not shown), which respectively transmit the scanning voltage I gates to the fine number (four) transistors. The same type of thin film transistor is connected to the same drawing drive line, the source of the same plurality of thin film transistors is connected to the same - (4), the complex scan of the _L surrounding area m, the crane line and the complex data The driving line is connected to a control circuit (not shown) of the liquid crystal display device 2 by a flexible circuit board (not shown). Referring to Fig. 4, a perspective view of the liquid crystal display device 2 shown in Fig. 3 after assembly is shown. The main reflective area 21 of the reflective sheet 201 is adhered to the lower surface of the carrying board 23 and forms a receiving space (not shown) with the window 234 of the carrying board 230. The light guide plate 207 is received in the accommodating space, and the light-emitting surface 274 is flush with the upper surface of the receiving plate 23. The plurality of light sources 2〇5 are respectively disposed on the plurality of accommodating grooves 236 and adjacent to the light incident surface 270 of the light guide plate 207. The light-shielding tape 209 is adhered to the periphery of the light-emitting surface 274 of the light guide plate 207 and the upper surface of the carrier plate 230. The liquid crystal panel 25 is fixed to the carrying plate 230 by the light shielding tape 209, and the upper surface thereof is flush with the upper surface of the side wall 232 of the plastic frame 203, and the second side 254 is flush with the outer side of the plastic frame 203. The first side 253 of the liquid crystal panel 25 respectively opposes the two side walls 23 2 . The side flaps 213 of the reflective sheet are bent upward along the fold line 215 and adhered to the outer side of the plastic frame 203 and the second side edge 254 of the liquid crystal panel 25, and are flush with the upper surface of the liquid crystal panel 25. The two side walls 232 and the side flaps 213 of the reflection sheet 209 are in common M327036 shape. The liquid (4) shows a frame (not labeled) of 1 and 2. The liquid crystal panel 25 is received in the frame Θ 亥 边框 将该 将该 扫描 扫描 扫描 扫描 扫描 扫描 扫描 扫描 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 252 外围 252 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 外围 扫描 扫描 扫描 扫描The normal operation of the device 2 a. Fortunately, in the prior art, the liquid crystal display device 2 of the present invention has the reflector moving side flap 213 folded to form a part of the frame of the liquid crystal display device 2, because the side flap is added The system--edge optical film, which can isolate the scanning drive f and the data driving line of the peripheral layer of the liquid daily and the outer layer from the outer side of the liquid to avoid a short circuit, thereby protecting the mouth. The normal operation of the device 2, and because the reflective sheet 2 is much thinner than the side wall of the prior art, the rim of the rudder can be formed on the outer side of the second side 254 of the liquid crystal panel 25, thereby satisfying the liquid crystal display. The application of the device 2 has a relatively narrow frame. The second embodiment of the present invention is substantially the same as the first embodiment. The difference is that the plastic frame does not include the side wall, and the reflective sheet corresponds to the carrier plate. The side also includes two side wings, which are bent to cover the shorter first side of the liquid crystal panel, so that the four sides of the liquid crystal panel are covered by the side flaps of the reflective sheet. 'The original creation is not limited to the above embodiment. As described above, the plastic frame 2〇3 can also be used as well. The ten is a structure with a side wall or a three-side wall; the liquid crystal display device 2 can also sigh the optical film 'as the guide Between the light panel and the liquid crystal panel, a film, a light-increasing film, a polarizer, and the like are disposed, and an upper polarizer is disposed on the upper surface of the liquid crystal panel 5. The light-shielding tape can also replace the reflection. The sheet 7 forms part of the frame of the liquid crystal display device 2; the side flap 213 of the reflective sheet 2〇1 can be folded over the edge of the upper surface of the liquid crystal panel 25. The 'this creation has indeed met the new patent The requirements are as follows: I# 'The above is only the preferred implementation of this creation. The scope of this creation is not limited to the above-mentioned implementation. Equivalent modifications or changes made in accordance with the spirit of this creation shall cover BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of a liquid crystal display device of the prior art. FIG. 2 is a perspective view showing the assembled liquid crystal display device of FIG. 1. FIG. FIG. 4 is a perspective view of the liquid crystal display device shown in FIG. 3. FIG. 4 is a perspective view of the liquid crystal display device shown in FIG. 3. [Main component symbol description] Liquid crystal display device 2 Backlight module 20 Reflecting sheet 201 Main reflection area 210 Side flap 213 Folding line 215 plastic frame 203 carrier plate 230 side wall 232 light source 205 light guide plate 207 light-incident surface 270 1 side surface 272 light-emitting surface 274 bottom surface 276 light-shielding tape 209 liquid crystal panel 25 in the page area 250 peripheral area 252 first side 253 second side Side 254 window 234 receiving slot 236 12