M364221 五、新型說明: 【新型所屬之技術領域】 本創作是關於-種液晶顯示模組,特別是關於—種 組合與維修的液晶顯示模組。 更斥裝 '【先前技術】 ' 触年來,隨·晶顯示n之技術雜速發展,且其所發射的輕 ♦射量遠小於傳統的CRT顯示器,因此液晶顯示器現已成為顯示器市場 之主流。 請參照圖1,圖1所繪示為習知的液晶顯示器之結構示意圖。此 液晶顯示器⑽)包括前框⑽)、液晶顯示池⑽)、電路控制 板(130)與後框⑽)。藉由前框⑽)與後框(14〇),可對液晶 顯示模組(120)的位置進行固定。 接著’請參照圖2’圖2所繪示為習知的液晶顯示模組之爆炸圖, 籲此液晶顯示模組(120)包括鐵框(121)、液晶面板(122)、膠框(123)、 增亮膜(124)、擴散膜(125)、擴散板(126)、燈源(127)、反射片 (128)與背板(129)。其令,燈源(127)是由多個冷陰極螢光燈管 (Cold Cathode Fluorescent Lamp)所組成,其所發出的光線有部份會 直接入射至擴散板(126),而其他的光線則會被反射片(128)反射而 入射至擴散板(126)。擴散板(126)的功用在於使燈源(127)所發 出的光線彼此混合’擴散膜(125)的功用則是讓光線混合地更加均勻, 以使液晶顯示器(100)於顯示時能有更均勻的亮度,而增亮膜(124) 3 M364221 , (i〇〇) ⑽. (123)咖峨⑽⑽、卿 ϋ ’ (122)狀放置《框⑽) 、。、曰錢(m)保持-㈣距離。另外,鐵框 :於液晶顯示模組⑽最外層的部份,用以保護一 、(120)内的元件。 '然、而,隨著市場的競爭加劇,前述之液晶顯示模組⑽)的結構 已不符合成本上的料’而且域複_結構不胁拆裝、組合及維 $因此本案之創作人提綺的液晶顯示模組之結構,使能有效減少 成本,增加拆裝、組合及維修上的方便性。 【新型内容】 本創作主要目的在提供—_構較簡單,且能有效減少成本的液 晶顯示模組。 顯 本創作之另-目的在提供一種可方便拆裝、組合及維修的液晶 示模組。 為了達成上述目的,本創作提供一種液晶顯示模組,包括一第一 部份與一第二部份,該第—部份包括—液晶面板、至少—光學膜片、 -擴散板以及-前框,第二部份包括—燈源與—修。其中,前框環 .堯液曰曰面板光子膜片與擴散板之側邊,使液晶面板、光學膜片與擴 散板依序制並固定。燈源細光源。#板定仙一容置空間,使燈 源設置於容置空㈣。藉由_與背板互減合喊,源位於擴 4 .M364221 散板之入光_ ’並使第—部份與第二部份相結合。 為了達成上述目的’本創作提供另一種液晶顯示模組,包括一第 =份與—第二部份,該第—部份包括—液晶面板、至少—絲膜片、 ‘光板、至少—燈源以及―前框,第二部份包括—背板。其中,燈 、Ί &光源位於導光板至少其巾—人光_。前框環繞液晶面板、 光干膜片與導光板之侧邊,使液晶面板、光學膜片與導光板依序排列 並口疋者板定義出-容置空間。藉由前框與背板互相結合固定,背 板可將射出導光板的光線反射’使其再進人導光板並使第一部份與 第二部份相結合。 為了達成上述目的,本創作提供又一種液晶顯示模組,包括一第 伤與一第二部份’該第一部份包括一液晶面板、至少一光學膜片、 一導光板以及一前框,第二部份包括一燈源以及一背板。其中,前框 環繞液晶面板、光學膜片與導光板之側邊,使液晶面板、光學膜片與 導光板依序排列並固定。燈源為一線光源。背板定義出一容置空間, 使燈源設置於容置空間内。藉由前框與背板互相結合固定,使燈源對 應於導光板至少其中一入光面側,並使第一部份與第二部份相結合。 為了達成上述目的,本創作提供再一種液晶顯示模組,包括一第 σΡ伤與一第一部份’該第一部份包括一液晶面板、至少一光學膜片、 一擴散板以及一前框,第二部份包括一導光板、至少一燈源與一背板。 其中,前框環繞液晶面板、光學膜片與擴散板之側邊,使液晶面板、 光學膜片與擴散板依序排列並固定。燈源為一線光源,位於導光板至 少其中一入光面測。背板定義出一容置空間,使燈源與導光板設置於 5 ,M3 64221 該合置工間内。错由w框與背板互人 ΛΛψ 、,汰唆 ^ ^ 口固疋,使擴散板位於導光板 的出先面側’亚使第-部份與第二部份相沾人 =糊了習知的液晶顯示模組中:份元件,以較少的材料 1 棚视峰力效,所以具有較低繼成本。另外, 融德細麻_,侧1物考互相結合。第 箱與^部份為兩個獨立、能快速拆裝、組合,且便於維修的兩 固模組,當燈源故障需維修時,僅需拆解第—部份或第二部份内的燈 源,即可祕液晶顯和驗。因此,本_具有齡、維修方便和成 本上的優勢。 為使熟悉_簡人士瞭縣創作之目的、舰及械,兹藉由 下述具體實補’並配合_之圖式,對本創作詳加說明如後。 【實施方式】 么明參閱圖3A ’圖3A所繪示為本創作之第一實施例的液晶顯示模 組不意圖’該液晶顯示模组(22〇)包括有一第一部份⑵〇a)與一 第:。!5份(22GB) ’該第—部份(22GA)包括有-液晶面板(222)、 —光學膜片(224)、-擴散板(226)以及一前框(221),該第二部份 (220B)包括有一燈源(227)、一反射片(228)以及一背板(229)。 如圖3A所示’在第一部份(220A)之中,前框(221)為一固定的框 架’可為塑膠、金屬或其他硬式材質所構成;在此,本創作之前框(221) 乃是用於取代圖2之液晶顯示模組(12〇)中的鐵框(121)與膠框 (123)。光學膜片(224)可為增亮膜、菱鏡片或擴散片。液晶面板 6 M3 64221 1 (222)、光學膜片(224)與擴散板(226)依序排列。前框(221)環 繞液晶面板(222)、光學膜片(224)與擴散板(226)之側邊,藉以 將液晶面板(222)、光學膜片(224)與擴散板(226)固定。在本圖 式中第一部份(220A )之固定方式乃以一螺絲釘(2211)將擴散板(226 ) 緊鎖於具階梯狀結構的前框(221)上,並藉以將液晶面板(222)與 光學膜片(224)夾緊固定,使其不會脫落。然而本領域具有通常知識 者可將其螺絲釘(2211)的固定結構設計成其他的結構,或者設計成 以壓條方式或黏膠方式將其固定。在此,因為其固定方式非本申請專 利範圍所訴求重點,故不再詳述。在第二部份(22〇B)中,燈源(227) 為面光源,所謂的面光源乃是指:從整體觀之,該燈源(227)呈一面 狀,在本實施例,燈源(227)為多個彼此平行且間隔地排列於反射片 (228)上的冷陰極螢光燈管(c〇ld cath〇de FluorescentLamp);然而 本領域具有通常知識者可將燈源設計成多個間隔排列的LED燈條,或 者一平面型螢光燈管,均可使其呈現為面光源。反射片(228)在朝向 燈源(227)之一面上具有反射面,此反射面可為白色物質或具有高反 射率的材質所構成,用以反射燈源(227)所射出的光線。背板(229) 為固疋用的框架,可為塑膠、硬紙板或其他質輕的硬式結構物。背 板(229)定義出一容置空間(2291),燈源(227)與反射片(228) 固疋於容置空間(2291)内。反射片(228)設置於鄰近燈源(227) 處,藉以反射燈源(227)所射出的光線。另外,本領域具有通常知識 者可將背板(229)上靠近燈源(227)的一面設計成白色或具有高反 射率材貝所構成的反射面,如此背板(229)便具有如同反射片(228) 7 .M364221 的反射功能,這種設計可進一步地將第二部份(220B)的結構精簡, 亦即將反射片(228)省略,且仍能反射燈源(227)所射出的光線。 猎由刖框(221)與为板(229)互相結合固定,可使第—部份(220A) 與第二部份(220B )互相結合。當第一部份(22〇A)與第二部份(22〇B ) 互相結合後,燈源(227)會位於擴散板(226)之入光面(226A)側。 -如前所述,第一部份(220A)與第二部份(22〇B)為兩個獨立、能快 、速拆裝、組合,且便於維修的兩個模組,當燈源(227)故障需維修時, 鲁僅需拆解第二部份(22〇B) ’便可更換燈源(227)。然而,習知的液 晶顯示模組(120)維修時則需拆下所有的内部零件。另外,本創作之 液晶顯示模組(220)因精簡部份元件,故能以較少的材料達到習知液 晶顯示模組(120)的功效,所以具有較低的製造成本。故本創作之 液晶顯示模組(220)的組合、維修方式或成本上的優勢與習知的液晶 顯示模組(120)相較’可明顯得出其改良之功效。 請參_ 3B,圖犯所繪示為本創作之第二實施例的液晶顯示模 系且示意圖,本實施例與圖3A之實施例的差異在於將液晶面板與光學 膜片相隔-間距,避免液晶面板刮傷光學膜片的表面;在本圖式中, ^圖3A _之元件在此以相同之標_示,並不再贅述其結構與功 能。如圖3B所示’請同時參閱圖3A,該液晶顯示模組(逝)包括 有-第-部份(220A,),該第一部份⑽A,)包括有一具有階梯狀結 構的前框(221,)。本實施例在液晶面板(222)與光學膜片(224)間 ^置-緩衝墊(2212’)’使液晶面板(222)與光學膜片(224)之間 留有-間距’避免液晶面板(222)刮傷光學膜片(224)的表面。在 8 ,M364221 此,緩衝塾(2212’)與前框(22Γ)為兩個不同的元件,然而本領域 具有通常知識者可將該緩衝塾(2212,)與制E (221,)設計成為一體 成形的結構,但此應仍受本申請專利範圍所涵蓋。 前述實施例已詳細揭露液晶顯示模組之結構與功能,然而本領域 具有通常知識者可以用導光板取代擴散板,來達到前述之功能。以下 .實施例則接著介紹其他使用導光板的液晶顯示模組。 凊參閱圖4A,圖4A所繪示為本創作之第三實施例的液晶顯示模 鲁組示思圖,該液晶顯示模組(320)包括有一第一部份(32〇a)與一 第二部份(320B),該第一部份(320A)包括有一液晶面板(322)、 一光學膜片(324)、一導光板(323)、一燈源(327)、一燈罩(325) 以及一前框(321),該第二部份(320B)包括有一反射片(328)以 及一背板(329)。如圖4A所示,在第一部份(320A)之中,前框(321) 為一固定的框架,光學膜片(324)可為增亮膜、菱鏡片或擴散片。燈 源(327)為線光源,且兩個燈源(327)分別位於導光板(323)的兩 鲁入光面(323A)侧。在本圖式中’燈源(327)為冷陰極螢光燈管。 所謂的線光源乃是指:從整體觀之,該燈源(327)呈一線狀。兩個燈 罩(325)分別設置在兩燈源(327)的側邊’可將燈源(327)射出的 光線反射並導向使其進入導光板(323)。液晶面板(322)、光學膜片 (324)與導光板(323)依序排列,燈源(327)與燈罩(325)設置 於導光板(323 )之相對的兩側邊,再由前框(321)將液晶面板(322)、 光學膜片(324)與導光板(323)固定於該導光板(323)上不包括燈 源(327)的另外兩側邊。為了顯示燈源(327)與燈罩(325)的相對 9 .M364221 位置’在本圖式中並未繪示此一固定方式,然而本領域具有通常知識 者可以將固定方式設計為用螺絲釘、壓條或黏膠等方式來固定。在第 二部份(320B)中’反射片(328)在朝向導光板(323)的一面上具 有反射面。背板(329)為一固定用的框架,可為塑膠、硬紙板或其他 質輕的硬式結構物;背板(329)定義出一容置空間(3291 ),使反射 片(328)貼於該容置空間(3291)的底面上。當然,本領域具有通常 '知識者可將背板(329)上靠近導光板(323)的一面設計成反射面, •進而將第二部份(320B)的反射片(328)省略。藉由前框(321)與 背板(3M )互相結合固定,可使第一部份(320A )與第二部份(320B ) 相結合。當前框(321)與背板(329)互相結合固定後,背板(329) 或反射片(328)可將從導光板(323)射出的光線反射,使其再進入 導光板(323)内。如前所述,第一部份(320A)與第二部份(320B) 為兩個獨立、能快速拆裝、組合,且便於維修的兩個模組。 請參閱圖4B ’圖4B所繪示為本創作之第四實施例的液晶顯示模 _組示意圖,本實施例與圖4A之實施例的差異在於將液晶面板與光學 膜片相隔一間距,避免液晶面板刮傷光學膜片的表面。在本圖式中, 與圖4A相同之元件在此以相同之標號顯不’並不再寶述其結構盘功 能。如圖4B所示,請同時參閱圖4A,液晶顯示模組(32〇,)包括有 一第一部份(320A,)’該第一部份(320A,)包括有一具有階梯狀結構 的前框(32Γ)。本實施例在液晶面板(322)與光學膜片(324)間設 置一緩衝墊(3212’),使液晶面板(322)與光學膜片(324)之間留 有一間距,避免液晶面板(322)刮傷光學膜片(324)的表面。在此, M364221 2墊(3212 )與前框(321,)為兩個不_元件,然而本領域具有 2知識者可將該緩输(咖,)與前框〇21,)糾成為一體成形 的、,構’但此應仍受本申請專利範圍所涵蓋。 卜^參閱圖4C ’圖4C崎示為本創作之第五實施例的液晶顯示模 八邑圖本只知例與圖4A之實施例的差異在於將冷陰極螢光燈管 •之,源改為LED燈條;在本圖式中,與圖从相同之元件在此以相同 h號顯示並不再贅述其結構與功能。如圖扣所示,請同時參閱 _圖4A ’ 5亥液晶顯不模組(32〇,,)包括有一第一部份(3胤,,),該第 部份(320A”)包括有-具有階梯狀結構的前框(321,,)、兩個燈源 (327’’)、兩個燈罩(325,,)以及一導光板(323,,)。本實施例的燈源 (327”)為LED燈條,兩燈源(327,,)分別置於導光板(323,,)的 兩入光面(323A,,)側’兩個燈罩(325,,)分別設置在兩燈源(327,,) 的側邊,可將燈源(327,,)射出的光線導向使其進入導光板(323,,) 内。 籲 以上,圖4A〜圖4C乃是將燈源設置於第一部份,然而本領域具 有通常知識者亦可將燈源設置於第二部份;以下實施例則接著介紹其 他將燈源設置於第二部份的液晶顯示模組。 請參閱圖5A ’圖5A所繪示為本創作之第六實施例的液晶顯示模 組示意圖’該液晶顯示模組(420)包括有一第一部份(420A)與一 第二部份(420B),該第一部份(420A)包括有一液晶面板(422)、 一光學膜片(424)、一導光板(423)以及一前框(421),該第二部份 (420B)包括有一反射片(428)、一燈源(427)、一燈罩(425)以 11 M364221 及-背板(429)。如圖5A所示,在第—部份(42〇A)之中,前框(421) 為-蚊的框架,光學膜片(424)可為增亮膜、菱鏡片或擴散片。液 晶面板(422)、光學膜片⑷4)與導光板(π3)依序排列,由前框 (421)環繞於液晶面板(422)、光學膜片(424)與導光板(423)之 側邊,且將其固疋,其第一部份(42〇a)之固定方式可與圖4A相同, 或以螺絲釘、壓條或黏膠等方式來固定。在第二部份(42〇B)中,背 板(429)為一固定用的框架,可為塑膠、硬紙板或其他質輕的硬式結 構物,且背板(429)定義出一容置空間(4291)’可使燈源(427)、 燈罩(425)及反射片(428)設置於容置空間(4291)内。反射片(428) 具有反射面,用以反射燈源(427)所射出的光線,且反射片(428) 貼於容置空間(4291)的底面上。燈源(427)為線光源,在本圖式中, 燈源(427)為冷陰極螢光燈管。兩個燈罩(425)分別設置在兩燈源 (427)的側邊,可將燈源(427)射出的光線反射/當然,本領域具 有通常知識者可將背板(429)上靠近燈源(427)的一面設計成反射 面,進而將第二部份(420B)的反射片(428)省略。藉由前框(421) 與背板(429)互相結合固定,可使第一部份(420A)與第二部份(420B) 相結合。當第一部份(420A)與第二部份(420B )相結合後,燈源(427 ) 會對應於導光板(423)之兩相對的入光面(423A)側,使背板(429) 或反射片(428)可將射出導光板(423)的光線反射,使其再進入導 光板(423)内。如前所述’第一部份(420A)與第二部份(420B) 為兩個獨立、能快速拆裝、組合,且便於維修的兩個模組。 請參閱圖5B,圖5B所繪示為本創作之第七實施例的液晶顯示模· 12 M364221 i i 組示意圖,本實施例與圖5A之實施例的差異在於將液晶面板與光學 膜片相隔1距’避統晶面板刮傷鮮則的表面;在本圖式中, 與圖5A相同之元件在此以相同之標麵示,並不再贅述其結構與功 能。如圖5B所示,請同時參閱圖5Λ,該液晶顯示模組(42〇,)包括 有第杨(420A,)’該第-部份(420A,)包括有一具有階梯狀結 •構的前框(421’)。本實施例在液晶面板(422)與光學膜片(424)間 •設置一緩衝墊(4212’),使液晶面板(422)與光學膜片(424)之間 #留有-間距’避免液晶面板(422)刮傷光學膜片(A4)的表面。在 此緩衝塾(4212 )與前框(421’)為兩個不同的元件,然而本領域 具有通常知識者可將該緩衝墊(4212,)與前框(421,)設計成為一體 成形的結構,但此應仍受本申請專利範圍所涵蓋。 請參閱圖5C,圖5C所繪示為本創作之第八實施例的液晶顯示模 組示意圖,本實施例與圖5A之實施例的差異在於將冷陰極螢光燈管 之燈源改為LED燈條;在本圖式中,與圖5A相同之元件在此以相同 _之標號顯示,並不再贅述其結構與功能。如圖5C所示,請同時參閱 圖5A,該液晶顯示模組(420”)包括有一第一部份(420A,,),該第 一部份(420A”)包括有一具有階梯狀結構的前框(421”)以及一導 光板(423’’)’第二部份(420B”)包括有兩個燈源(427,,)以及兩個 燈罩(425,,)。本實施例的燈源(427,,)為LED燈條,且每一燈源(427,,) 的側邊對應一燈罩(425”),燈源(427”)與燈罩(425”)均設置於 容置空間(4291)内,當第一部份(420A,,)與第二部份(420B,,)結 合後,兩燈源(427”)分別位於導光板(423,,)之相對的兩入光面 M364221 « (423A”)側,進而可將光線射入導光板(423,,)内。 前述實施例已分別詳細揭露使用擴散板或導光板的液晶顯示模 組,然而本領域財通常知識者可以在液晶顯示模組巾晴使用導光 板和擴散板,來達到前述之功能。以下實施例則接著介紹這種同時包 括導光板和擴散板的液晶顯示模組。 - 请參閱圖6A ’圖6入所繪示為本創作之第九實施例的液晶顯示模 •組示意圖,該液晶顯示模組(520)包括有一第一部份(520A)與一 #第二部份(520B)’該第一部份(52〇A)包括有一液晶面板(522)、 一光學膜片(524)、一擴散板(526)以及一前框(521),該第二部份 (520B)包括有一導光板(523)、一反射片(528)、一燈源(527)、 一燈罩(525)以及一背板(529)。如圖6A所示,在第一部份(520A) 之中,前框(521)為一固定的框架,光學膜片(524)可為增亮膜、 菱鏡片或擴散片。液晶面板(522)、光學膜片(524)與擴散板(526) 依序排列,前框(521)環繞於液晶面板(522)、光學膜片(524)與 •擴散板(526)之侧邊’且將其固定;在此’第一部份(52〇A)之固 定方式可與圖3A相同,或以螺絲釘、壓條或黏膠等方式來固定。在 第一部份(520B)中’背板(529)為一固定用的框架,可為塑膠、 硬紙板或其他質輕的硬式結構物,且背板(529)定義出一容置空間 (5291),使導光板(523)、燈源(527)、燈罩(525)及反射片(528) 設置於容置空間(5291)内。反射片(528)具有反射面,用以反射燈 源(527)所射出的光線,且反射片(528)貼於容置空間(5291)的 底面上。燈源(527 )為線光源’兩個燈源(527)分別位於導光板(523 ) 14 M364221 的兩入光面(523A)側,在本圖式中,燈源(527)為冷陰極螢光燈 管。兩個燈罩(525)分別設置在兩燈源(527)的側邊,可將燈源(527) 射出的光線反射並導向使其進入導光板(523)。當然,本領域具有通 常知識者可將背板(529)上靠近燈源(527)的一面設計成反射面, 進而將第二部份(520B)的反射片(528)省略。藉由前框(521)與 '背板(529 )互相結合固定,可使第一部份(520A)與第二部份(520B ) '相結合。當第一部份(520A)與第二部份(520B)相結合後,擴散板 _ (526)會位於導光板(523)的出光面(523B)側。如前所述,第一 部份(520A)與第二部份(520B)為兩個獨立、能快速拆裝、組合, 且便於維修的兩個模組。 請參閱圖6B,圖6B所繪示為本創作之第十實施例的液晶顯示模 組不意圖,本實施例與圖6A之實施例的差異在於將液晶面板與光學 膜片相隔一間距,避免液晶面板刮傷光學膜片的表面;在本圖式中, 與圖6A相同之元件在此以相同之標號顯示,並不再贅述其結構與功 •能。如圖6B所示,請同時參閱圖6A,該液晶顯示模組(52〇,)包括 有一第-部份(520A,),該第-部份(520A,)包括有一具有階梯狀結 -構的前框(521,)。本實施例在液晶面板(522)與光學膜片(524)間 設置一緩衝墊(5212’),使液晶面板(522)與光學獏片(524)之間 留有一間距,避免液晶面板(522)刮傷光學膜片(524)的表面。在 此’緩衝墊⑽2,)與前框(521,)為兩個不_元件,然而本領域 具有通常知識者可將該緩衝墊(5212,)與前框(521,)設計成為一體 成形的結構,但此應仍受本申請專利範圍所涵蓋。 15 .M364221 雖然本創作已啡財關贿如上,__麵且體實施例 本創作,任何熟悉此技藝者,在不脫離本創作之精神和 2二:可作各種之更動與潤飾,其所作之更動與潤飾皆屬於本創 本創作之㈣範圍當碰狀巾請專概圍所界定者為準。 【圖式簡單說明】 圖1所綠示為習知的液晶顯示器之結構示意圖。 馨圖2崎示為冑知敝晶顯賴組之爆炸圖。 圖3Α所繪示為本創作之第一實施例的液晶顯示模組示意圖。 圖犯所繪示為本創作之第二實施例的液晶顯示模組示意圖。 圖4Α所繪示為本創作之第三實施例的液晶顯示模組示意圖。 圖犯所綠示為本創作之第四實施例的液晶顯示模組示意圖。 圖4C所緣示為本創作之第五實施例的液晶顯示模組示意圖。 ·彳、’9不為本創作之第六實關雜晶I!示模組示意圖。 圖犯所緣示為本創作之第七實施例的液晶顯示模組示意圖。 圖冗崎福本創作之第八實施_液轉示模組示意圖。 » 6Α所綠示為本創作之第九實施例的液晶顯示模组示音圖。 圖6Β所綠示為本創作之第十實施例的液_示模組示意圖。 【主要元件符號說明】 <先前技術> 110 :前框 100 :液晶顯示器 16 .M364221M364221 V. New description: [New technical field] This creation is about a kind of liquid crystal display module, especially regarding the combination and maintenance of liquid crystal display module. More disguised '[previous technology] ' In the past years, with the crystal display n technology speed development, and its light *** shot is much smaller than the traditional CRT display, so the liquid crystal display has become the mainstream of the display market. Please refer to FIG. 1 , which is a schematic structural diagram of a conventional liquid crystal display. The liquid crystal display (10) includes a front frame (10), a liquid crystal display cell (10), a circuit control board (130) and a rear frame (10). The position of the liquid crystal display module (120) can be fixed by the front frame (10) and the rear frame (14). Then, please refer to FIG. 2, FIG. 2 is an exploded view of a conventional liquid crystal display module, and the liquid crystal display module (120) includes an iron frame (121), a liquid crystal panel (122), and a plastic frame (123). ), a brightness enhancement film (124), a diffusion film (125), a diffusion plate (126), a light source (127), a reflection sheet (128), and a back sheet (129). Therefore, the light source (127) is composed of a plurality of cold cathode fluorescent lamps (Cold Cathode Fluorescent Lamp), and some of the light emitted from the light source is directly incident on the diffusion plate (126), and other light is It will be reflected by the reflection sheet (128) and incident on the diffusion plate (126). The function of the diffuser plate (126) is to mix the light emitted by the light source (127) with each other. The function of the diffuser film (125) is to make the light mixing more uniform, so that the liquid crystal display (100) can be more displayed when displayed. Uniform brightness, and brightness enhancement film (124) 3 M364221, (i〇〇) (10). (123) Curry (10) (10), Qing ϋ ' (122) placed "frame (10)),. , pay (m) to maintain - (four) distance. In addition, the iron frame is the outermost portion of the liquid crystal display module (10) for protecting the components in one (120). 'Rather, and as the competition in the market intensifies, the structure of the aforementioned liquid crystal display module (10)) is not in line with the cost of the material 'and the domain complex _ structure does not threaten disassembly, assembly and dimension $ therefore the author of the case The structure of the liquid crystal display module enables the effective reduction of costs and the convenience of disassembly, assembly and maintenance. [New content] The main purpose of this creation is to provide a liquid crystal display module that is simpler and can effectively reduce costs. Another purpose of the creation is to provide a liquid crystal display module that can be easily assembled, assembled and repaired. In order to achieve the above object, the present invention provides a liquid crystal display module including a first portion and a second portion, the first portion including - a liquid crystal panel, at least - an optical film, a diffusion plate, and a front frame The second part includes - light source and repair. Among them, the front frame ring, the side of the liquid crystal panel, the optical film and the diffusion plate are sequentially formed and fixed. Light source light source. #板定仙一容空间空间, the light source is set to accommodate the space (four). By shuffling the _ with the backplane, the source is located in the _ _ ' and the first part is combined with the second part. In order to achieve the above object, the present invention provides another liquid crystal display module including a first portion and a second portion, the first portion including - a liquid crystal panel, at least a silk film, an optical panel, at least a light source. And the front frame, the second part includes the backplane. Wherein, the light, the Ί & light source is located at least on the light guide plate. The front frame surrounds the side edges of the liquid crystal panel, the light-drying film and the light guide plate, so that the liquid crystal panel, the optical film and the light guide plate are sequentially arranged, and the aperture plate defines an accommodation space. By the front frame and the back plate being fixed to each other, the back plate can reflect the light emitted from the light guide plate to make it enter the light guide plate and combine the first portion with the second portion. In order to achieve the above object, the present invention provides a liquid crystal display module including a first injury and a second portion. The first portion includes a liquid crystal panel, at least one optical film, a light guide plate, and a front frame. The second part includes a light source and a back plate. The front frame surrounds the side edges of the liquid crystal panel, the optical film and the light guide plate, and the liquid crystal panel, the optical film and the light guide plate are sequentially arranged and fixed. The light source is a line source. The backplane defines an accommodation space for the light source to be disposed in the accommodation space. The front frame and the back plate are fixedly coupled to each other such that the light source corresponds to at least one of the light incident surface sides of the light guide plate, and the first portion is combined with the second portion. In order to achieve the above object, the present invention provides a liquid crystal display module including a first σ flaw and a first portion. The first portion includes a liquid crystal panel, at least one optical film, a diffusion plate, and a front frame. The second part comprises a light guide plate, at least one light source and a back plate. The front frame surrounds the side edges of the liquid crystal panel, the optical film and the diffusion plate, and the liquid crystal panel, the optical film and the diffusion plate are sequentially arranged and fixed. The light source is a line source, and at least one of the light guides is located on the light guide. The backplane defines an accommodation space, so that the light source and the light guide plate are disposed in the joint room of 5, M3 64221. Wrong by the w frame and the back plate mutual ΛΛψ,, 唆 唆 ^ ^ mouth solid 疋, so that the diffuser plate is located on the front side of the light guide plate 'Asian part of the second part and the second part of the person = paste In the liquid crystal display module: the component parts, with less material 1 shed peak effect, so have lower successor costs. In addition, Rongde fine linen _, side 1 material test combined with each other. The first and second parts are two independent, quick-disassembling, combination, and easy to repair two-solid modules. When the light source fails to be repaired, only the first part or the second part needs to be dismantled. Light source, you can see the secret LCD. Therefore, this _ has the advantage of age, maintenance and cost. In order to familiarize the _ Jane people with the purpose of the county creation, ships and machinery, the following details are explained in detail by the following concrete supplements and the pattern of _. [FIG. 3A] FIG. 3A illustrates a liquid crystal display module according to a first embodiment of the present invention. The liquid crystal display module (22A) includes a first portion (2) 〇 a) With a number: !5 parts (22GB) 'The first part (22GA) includes a liquid crystal panel (222), an optical film (224), a diffusion plate (226), and a front frame (221), the second portion The portion (220B) includes a light source (227), a reflective sheet (228), and a back sheet (229). As shown in FIG. 3A, 'in the first part (220A), the front frame (221) is a fixed frame' may be made of plastic, metal or other hard material; here, before the creation of the box (221) It is used to replace the iron frame (121) and the plastic frame (123) in the liquid crystal display module (12〇) of FIG. The optical film (224) can be a brightness enhancing film, a diamond lens or a diffusion sheet. The liquid crystal panel 6 M3 64221 1 (222), the optical film (224) and the diffusion plate (226) are sequentially arranged. The front frame (221) surrounds the sides of the liquid crystal panel (222), the optical film (224) and the diffusion plate (226), thereby fixing the liquid crystal panel (222), the optical film (224) and the diffusion plate (226). In the first part of the figure (220A), the diffusion plate (226) is locked to the front frame (221) with a stepped structure by a screw (2211), and the liquid crystal panel (222) is used. ) is clamped and fixed to the optical diaphragm (224) so that it does not fall off. However, those skilled in the art can design the fixing structure of the screw (2211) into another structure, or design it to be fixed by pressing or adhesive. Here, since the fixing method is not the focus of the patent scope of the present application, it will not be described in detail. In the second part (22〇B), the light source (227) is a surface light source, and the so-called surface light source means: from a holistic view, the light source (227) has a one-sided shape, in this embodiment, the light The source (227) is a plurality of cold cathode fluorescent lamps (c〇ld cath〇de Fluorescent Lamp) arranged parallel to each other and spaced apart from each other on the reflective sheet (228); however, those skilled in the art can design the light source into A plurality of spaced-apart LED strips, or a planar fluorescent tube, can be rendered as a surface light source. The reflection sheet (228) has a reflecting surface on one side facing the light source (227), and the reflecting surface may be made of a white substance or a material having a high reflectance for reflecting the light emitted from the light source (227). The back panel (229) is a solid frame that can be plastic, cardboard or other lightweight construction. The back plate (229) defines an accommodating space (2291), and the light source (227) and the reflection sheet (228) are fixed in the accommodating space (2291). The reflective sheet (228) is disposed adjacent to the light source (227) to reflect the light emitted by the light source (227). In addition, those skilled in the art can design the side of the back plate (229) adjacent to the light source (227) to be white or have a reflective surface composed of a high reflectivity material, such that the back plate (229) has a reflection like The reflection function of the piece (228) 7 . M364221, which further simplifies the structure of the second part (220B), that is, the reflection piece (228) is omitted, and still reflects the light source (227). Light. The hunting frame (221) and the plate (229) are fixed to each other, and the first portion (220A) and the second portion (220B) can be combined with each other. When the first portion (22〇A) and the second portion (22〇B) are combined with each other, the light source (227) is located on the light incident surface (226A) side of the diffuser plate (226). - As mentioned above, the first part (220A) and the second part (22〇B) are two independent modules that can be assembled, assembled, and easily repaired, and are easy to repair. 227) When the fault needs to be repaired, Lu only needs to disassemble the second part (22〇B) 'The lamp source can be replaced (227). However, conventional liquid crystal display modules (120) require all internal parts to be removed for maintenance. In addition, the liquid crystal display module (220) of the present invention can achieve the effect of the conventional liquid crystal display module (120) with less material due to the reduction of some components, so that the manufacturing cost is low. Therefore, the combination, maintenance method or cost advantage of the liquid crystal display module (220) of the present invention is significantly improved compared with the conventional liquid crystal display module (120). Please refer to _ 3B, which is a schematic diagram of the liquid crystal display module of the second embodiment of the present invention. The difference between this embodiment and the embodiment of FIG. 3A is that the liquid crystal panel is separated from the optical film by a distance to avoid The liquid crystal panel scratches the surface of the optical film; in the figure, the components of FIG. 3A are denoted by the same reference numerals, and the structure and function thereof will not be described again. As shown in FIG. 3B, 'Please refer to FIG. 3A at the same time, the liquid crystal display module includes a - part (220A), and the first part (10) A) includes a front frame having a stepped structure ( 221,). In this embodiment, a liquid crystal panel (222) and an optical film (224) are disposed with a cushion (2212') to leave a gap between the liquid crystal panel (222) and the optical film (224). (222) Scratching the surface of the optical film (224). In 8, M364221, the buffer 塾 (2212') and the front frame (22 Γ) are two different components, but those skilled in the art can design the buffer 塾 (2212,) and the ECU (221,) as An integrally formed structure, but this should still be covered by the scope of the patent application. The foregoing embodiments have disclosed the structure and function of the liquid crystal display module in detail. However, those skilled in the art can replace the diffuser plate with a light guide plate to achieve the foregoing functions. Hereinafter, the embodiment will next introduce other liquid crystal display modules using a light guide plate. Referring to FIG. 4A, FIG. 4A is a schematic diagram of a liquid crystal display module according to a third embodiment of the present invention. The liquid crystal display module (320) includes a first portion (32〇a) and a first The second part (320B) includes a liquid crystal panel (322), an optical film (324), a light guide plate (323), a light source (327), and a light cover (325). And a front frame (321), the second portion (320B) includes a reflective sheet (328) and a back plate (329). As shown in FIG. 4A, in the first portion (320A), the front frame (321) is a fixed frame, and the optical film (324) may be a brightness enhancement film, a lens or a diffusion sheet. The light source (327) is a line light source, and two light sources (327) are respectively located on the two radiant surfaces (323A) side of the light guide plate (323). In the present figure, the light source (327) is a cold cathode fluorescent tube. The so-called line source means that the light source (327) is in a line shape as a whole. Two light shields (325) are respectively disposed on the sides of the two light sources (327) to reflect and direct the light emitted from the light source (327) into the light guide plate (323). The liquid crystal panel (322), the optical film (324) and the light guide plate (323) are sequentially arranged, and the light source (327) and the lamp cover (325) are disposed on opposite sides of the light guide plate (323), and then the front frame (321) Fixing the liquid crystal panel (322), the optical film (324), and the light guide plate (323) to the light guide plate (323) does not include the other side edges of the light source (327). In order to show the relative position of the light source (327) and the lampshade (325), the position of the M. M364221 is not shown in this figure. However, those skilled in the art can design the fixing method to use screws and beads. Or glue or other means to fix. In the second portion (320B), the reflection sheet (328) has a reflecting surface on the side facing the light guide plate (323). The back plate (329) is a fixed frame, which can be a plastic, cardboard or other lightweight hard structure; the back plate (329) defines an accommodation space (3291), so that the reflective sheet (328) is attached to The accommodating space (3291) is on the bottom surface. Of course, it is common in the art that a person skilled in the art can design the side of the back sheet (329) adjacent to the light guide plate (323) as a reflecting surface, and further omit the reflecting sheet (328) of the second portion (320B). The first portion (320A) and the second portion (320B) can be combined by the front frame (321) and the back plate (3M) being fixed to each other. After the front frame (321) and the back plate (329) are fixed to each other, the back plate (329) or the reflection sheet (328) can reflect the light emitted from the light guide plate (323) and re-enter the light guide plate (323). . As mentioned above, the first part (320A) and the second part (320B) are two independent modules that can be quickly assembled, assembled, and easily repaired. Referring to FIG. 4B, FIG. 4B is a schematic diagram of a liquid crystal display module according to a fourth embodiment of the present invention. The difference between the embodiment and the embodiment of FIG. 4A is that the liquid crystal panel and the optical film are separated by a distance to avoid The liquid crystal panel scratches the surface of the optical film. In the present drawings, the same components as those in Fig. 4A are denoted by the same reference numerals and their structural disk functions are not described. As shown in FIG. 4B, please refer to FIG. 4A at the same time, the liquid crystal display module (32A) includes a first portion (320A,). The first portion (320A) includes a front frame having a stepped structure. (32Γ). In this embodiment, a cushion (3212') is disposed between the liquid crystal panel (322) and the optical film (324) to leave a gap between the liquid crystal panel (322) and the optical film (324) to avoid the liquid crystal panel (322). The surface of the optical film (324) is scratched. Here, the M364221 2 pad (3212) and the front frame (321,) are two non-components, but those skilled in the art have the knowledge that the slow-changing (coffee) and the front frame 〇21, , constituting 'but this should still be covered by the scope of this patent. Referring to FIG. 4C, FIG. 4C shows the liquid crystal display mode of the fifth embodiment of the present invention. The difference between the example and the embodiment of FIG. 4A is that the cold cathode fluorescent lamp is changed. In the present drawings, the same components as those in the drawings are denoted by the same h-number and their structures and functions will not be described again. As shown in the figure, please refer to _ Figure 4A '5H LCD display module (32〇,,) includes a first part (3胤,,), the first part (320A)) includes - a front frame (321,,) having two steps, two light sources (327''), two light covers (325, ), and a light guide plate (323,). The light source (327) of the embodiment ) for the LED light bar, two light sources (327,,) are respectively placed on the two light-incident surfaces (323A, ) side of the light guide plate (323,,), and two light covers (325, ,) are respectively disposed at the two light sources. The side of (327,,) can direct the light from the light source (327,,) into the light guide plate (323,,). 4A to 4C, the light source is disposed in the first portion, but those skilled in the art can also set the light source to the second portion; the following embodiments will further introduce other light source settings. In the second part of the liquid crystal display module. 5A is a schematic diagram of a liquid crystal display module according to a sixth embodiment of the present invention. The liquid crystal display module (420) includes a first portion (420A) and a second portion (420B). The first portion (420A) includes a liquid crystal panel (422), an optical film (424), a light guide plate (423), and a front frame (421). The second portion (420B) includes a The reflection sheet (428), a light source (427), and a lamp cover (425) are 11 M364221 and a back plate (429). As shown in FIG. 5A, in the first portion (42A), the front frame (421) is a frame of a mosquito, and the optical film (424) may be a brightness enhancement film, a lens or a diffusion sheet. The liquid crystal panel (422), the optical film (4) 4) and the light guide plate (π3) are sequentially arranged, and the front frame (421) surrounds the side of the liquid crystal panel (422), the optical film (424) and the light guide plate (423). And fixing it, the first part (42〇a) can be fixed in the same manner as FIG. 4A, or fixed by screws, beading or adhesive. In the second part (42〇B), the back plate (429) is a fixed frame, which can be a plastic, cardboard or other lightweight hard structure, and the back plate (429) defines an accommodation. The space (4291)' allows the light source (427), the lamp cover (425), and the reflection sheet (428) to be disposed in the accommodating space (4291). The reflective sheet (428) has a reflecting surface for reflecting the light emitted from the light source (427), and the reflective sheet (428) is attached to the bottom surface of the accommodating space (4291). The light source (427) is a line light source. In the present figure, the light source (427) is a cold cathode fluorescent tube. Two light covers (425) are respectively disposed on the sides of the two light sources (427) to reflect the light emitted from the light source (427). Of course, those skilled in the art can bring the back plate (429) close to the light source. One side of (427) is designed as a reflecting surface, and the reflecting sheet (428) of the second portion (420B) is omitted. The first portion (420A) and the second portion (420B) can be combined by the front frame (421) and the back plate (429) being fixed to each other. When the first portion (420A) is combined with the second portion (420B), the light source (427) corresponds to the opposite light incident surface (423A) side of the light guide plate (423), so that the back plate (429) Or the reflective sheet (428) reflects the light that exits the light guide plate (423) to re-enter the light guide plate (423). As mentioned above, the first part (420A) and the second part (420B) are two independent modules that can be quickly assembled, assembled, and easily repaired. Referring to FIG. 5B, FIG. 5B is a schematic diagram of a liquid crystal display module 12 M364221 ii according to a seventh embodiment of the present invention. The difference between this embodiment and the embodiment of FIG. 5A is that the liquid crystal panel is separated from the optical film by 1 The same components as in FIG. 5A are denoted by the same reference numerals in the drawings, and the structures and functions thereof will not be described again. As shown in FIG. 5B, please refer to FIG. 5 at the same time, the liquid crystal display module (42A) includes a yang (420A,) 'the first part (420A)) including a front portion having a stepped structure Box (421'). In this embodiment, a buffer pad (4212') is disposed between the liquid crystal panel (422) and the optical film (424) to leave a gap between the liquid crystal panel (422) and the optical film (424). The panel (422) scratches the surface of the optical film (A4). Here, the buffer 塾 (4212) and the front frame (421') are two different components, but those skilled in the art can design the cushion (4212,) and the front frame (421,) into an integrally formed structure. However, this should still be covered by the scope of this patent application. Referring to FIG. 5C , FIG. 5C is a schematic diagram of a liquid crystal display module according to an eighth embodiment of the present invention. The difference between the embodiment and the embodiment of FIG. 5A is that the light source of the cold cathode fluorescent tube is changed to LED. In the present drawings, the same components as those in FIG. 5A are denoted by the same reference numerals, and their structures and functions will not be described again. As shown in FIG. 5C, please refer to FIG. 5A at the same time, the liquid crystal display module (420") includes a first portion (420A,), and the first portion (420A") includes a front portion having a stepped structure. The frame (421") and a light guide plate (423'') 'second portion (420B") include two light sources (427, ) and two light covers (425,,). The light source (427,) of the embodiment is an LED light bar, and the side of each light source (427,,) corresponds to a light cover (425"), and the light source (427") and the light cover (425") are both Disposed in the accommodating space (4291), when the first portion (420A,) is combined with the second portion (420B,), the two light sources (427") are respectively located on the light guide plate (423,,) The opposite side of the entrance light M364221 « (423A") side, and then the light can be incident into the light guide plate (423,,). The foregoing embodiments have respectively disclosed the liquid crystal display module using the diffusion plate or the light guide plate, respectively. The general knowledge holders can use the light guide plate and the diffusion plate in the liquid crystal display module to achieve the aforementioned functions. The following embodiment will next introduce the liquid crystal display module including the light guide plate and the diffusion plate. - See also FIG. 6A is a schematic diagram of a liquid crystal display module according to a ninth embodiment of the present invention. The liquid crystal display module (520) includes a first portion (520A) and a second portion (520B). ) 'The first part (52〇A) includes a liquid crystal panel (522), An optical film (524), a diffusion plate (526) and a front frame (521), the second portion (520B) includes a light guide plate (523), a reflection sheet (528), and a light source (527) a lamp cover (525) and a back plate (529). As shown in Fig. 6A, in the first portion (520A), the front frame (521) is a fixed frame, and the optical film (524) is A brightness enhancement film, a lens or a diffusion sheet. The liquid crystal panel (522), the optical film (524) and the diffusion plate (526) are sequentially arranged, and the front frame (521) surrounds the liquid crystal panel (522) and the optical film ( 524) and the side of the diffuser (526) 'and fix it; here 'the first part (52〇A) can be fixed in the same way as Figure 3A, or by means of screws, beading or adhesive Fixed. In the first part (520B), the back plate (529) is a fixed frame, which can be plastic, cardboard or other lightweight and hard structure, and the back plate (529) defines an accommodation. The space (5291) is such that the light guide plate (523), the light source (527), the lamp cover (525) and the reflection sheet (528) are disposed in the accommodating space (5291). The reflection sheet (528) has a reflection surface for reflection. The light source (527) emits light, and the reflective sheet (528) is attached to the bottom surface of the accommodating space (5291). The light source (527) is a line light source 'two light sources (527) are respectively located on the light guide plate (523) 14 M364221 on the two entrance side (523A) side, in this figure, the light source (527) is a cold cathode fluorescent tube. Two lampshades (525) are respectively placed on the sides of the two light sources (527) The light emitted by the light source (527) can be reflected and directed to enter the light guide plate (523). Of course, those skilled in the art can design the side of the backplane (529) adjacent to the light source (527) as a reflective surface, thereby omitting the reflective sheet (528) of the second portion (520B). The first portion (520A) and the second portion (520B)' can be combined by the front frame (521) and the 'back plate (529) being fixed to each other. When the first portion (520A) is combined with the second portion (520B), the diffusion plate _ (526) is located on the light exiting surface (523B) side of the light guide plate (523). As mentioned above, the first part (520A) and the second part (520B) are two independent modules that can be quickly assembled, assembled, and easily repaired. Please refer to FIG. 6B. FIG. 6B illustrates the liquid crystal display module of the tenth embodiment of the present invention. The difference between the embodiment and the embodiment of FIG. 6A is that the liquid crystal panel and the optical film are separated by a distance to avoid The liquid crystal panel is scratched on the surface of the optical film; in the present embodiment, the same components as those in Fig. 6A are denoted by the same reference numerals, and the structure and function thereof will not be described again. As shown in FIG. 6B, please refer to FIG. 6A at the same time, the liquid crystal display module (52A) includes a first portion (520A), and the first portion (520A) includes a stepped junction structure. Front box (521,). In this embodiment, a cushion (5212') is disposed between the liquid crystal panel (522) and the optical film (524) to leave a gap between the liquid crystal panel (522) and the optical shutter (524) to avoid the liquid crystal panel (522). The surface of the optical film (524) is scratched. Here, the 'cushion (10) 2,) and the front frame (521,) are two non-components, however, those skilled in the art can design the cushion (5212,) and the front frame (521,) into one body. Structure, but this should still be covered by the scope of this patent application. 15 .M364221 Although this creation has been made by the above-mentioned creations, the authors of this art, without any departure from the spirit of this creation and 2: can make a variety of changes and retouching, made by The changes and retouchings belong to this creation. (4) Scope When the contact towel is defined, it is subject to the definition. BRIEF DESCRIPTION OF THE DRAWINGS The green color of Fig. 1 is a schematic structural view of a conventional liquid crystal display. Xintu 2 is shown as an explosion map of the group. FIG. 3 is a schematic diagram of a liquid crystal display module according to a first embodiment of the present invention. A schematic diagram of a liquid crystal display module according to a second embodiment of the present invention is shown. FIG. 4 is a schematic diagram of a liquid crystal display module according to a third embodiment of the present invention. A green schematic diagram of the liquid crystal display module of the fourth embodiment of the present invention is shown. FIG. 4C is a schematic diagram of a liquid crystal display module according to a fifth embodiment of the present invention. ·彳, '9 is not the sixth real-time hetero-crystal I! The schematic diagram of the liquid crystal display module of the seventh embodiment of the present invention is shown. Figure 8: The eighth implementation of Fushou Fuben's creation _ liquid transfer module schematic. » 6 Α 绿 绿 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Figure 6 is a schematic view of a liquid-display module of a tenth embodiment of the present invention. [Description of main component symbols] <Prior Art> 110: Front frame 100: Liquid crystal display 16 .M364221
120 .液晶顯不核組 126 ·擴散板 121 :鐵框 127 :燈源 122 ·液晶面板 128 :反射片 123 :膠框 129 :背板 124 :增亮膜 130 :電路控制板 125 :擴散膜 140 :後框 <本創作> 220、220’ :液晶顯示模組 320、320’、320” :液晶顯示 220A、220A’ :第一部份 模組 220B :第二部份 320A、320A,、320A” ··第一 221、221’ :前框 部份 2211 :螺絲釘 320B :第二部份 2212’ :緩衝墊 321、321’、321” :前框 222 .液晶面板 3212,:緩衝墊 224 :光學膜片 322 ·液晶面板 226 :擴散板 323、323” :導光板 226A :入光面 323A、323A” :入光面 227 :燈源 324 :光學膜片 228 :反射片 325、325” :燈罩 229 :背板 327、327” :燈源 2291 :容置空間 328 :反射片 17 ,M3 64221 329 :背板 3291 :容置空間 420、 420’、420” :液晶顯示 模組 420A、420A,、420A” :第一 部份 420B、420B” :第二部份 421、 421’、421” :前框 4212’ :緩衝墊 422 .液晶面板 423、423” :導光板 423A、423A” :入光面 424 :光學膜片 425、425” :燈罩 427、427” :燈源 428 :反射片 429 :背板 4291 :容置空間 520、520’ :液晶顯示模組 520A、520A’ ··第一部份 520B :第二部份 52卜521’ :前框 5212’ :緩衝墊 522 .液晶面板 523 :導光板 523A :入光面 523B :出光面 524 :光學膜片 525 :燈罩 526 :擴散板 527 :燈源 528 :反射片 529 :背板 5291 :容置空間 18120. Liquid crystal display core group 126 · Diffuser plate 121 : Iron frame 127 : Light source 122 · Liquid crystal panel 128 : Reflecting sheet 123 : Plastic frame 129 : Back plate 124 : Brightening film 130 : Circuit control board 125 : Diffusion film 140 : Back frame <This creation> 220, 220': Liquid crystal display module 320, 320', 320": Liquid crystal display 220A, 220A': First partial module 220B: Second part 320A, 320A, 320A" ··first 221, 221': front frame portion 2211: screw 320B: second portion 2212': cushion 321, 321 ', 321": front frame 222. liquid crystal panel 3212,: cushion 224: Optical film 322 · Liquid crystal panel 226 : diffusing plate 323 , 323 ′ : light guide plate 226A : light incident surface 323A, 323A ′′: light incident surface 227 : light source 324 : optical film 228 : reflective sheet 325 , 325 ′′ : lamp cover 229: back plate 327, 327": light source 2291: accommodating space 328: reflective sheet 17, M3 64221 329: back plate 3291: accommodating spaces 420, 420', 420": liquid crystal display modules 420A, 420A, 420A": the first part 420B, 420B": the second part 421, 421 ', 421": front frame 4212': cushion 422. liquid crystal panel 423, 423": light guide plate 423A, 423A": light incident surface 424: optical film 425, 425": lampshade 427, 427": light source 428: reflective sheet 429: back plate 4291: accommodating space 520, 520': liquid crystal display module 520A, 520A' · first part 520B: second part 52 521': front frame 5212': cushion 522. liquid crystal panel 523: light guide plate 523A: light-incident surface 523B: light-emitting surface 524: optical film 525: lamp cover 526: diffusion plate 527: light source 528: reflection sheet 529: back plate 5291: accommodation space 18