201239454 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明是關於一種顯示器結構,特別是關於一種具有可 發光底部的顯示器結構。 【先前技術】 [0002] 近年來’傳統的陰極射線管顯示器(即俗稱的CRT顯示器) 已漸漸地被液晶顯示器所取代,主要原因在於液晶顯示 器所釋放出的輻射量遠遠小於CRT顯示器,另外,液晶顯 0 示器在這幾年的製造成本已有顯著地降低,這也是液晶 顯示器逐漸成為電視或電腦螢幕市場之主流的原因。 ..: :: ........201239454 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a display structure, and more particularly to a display structure having a luminescent bottom. [Prior Art] [0002] In recent years, 'conventional cathode ray tube display (commonly known as CRT display) has been gradually replaced by liquid crystal display, the main reason is that the amount of radiation released by the liquid crystal display is much smaller than that of the CRT display. The manufacturing cost of the liquid crystal display device has been significantly reduced in recent years, which is why the liquid crystal display has gradually become the mainstream of the television or computer screen market. ..: :: .......
[0003] 就外觀而言’一顯示器結構係由一液晶面板、一前框、 一後殼及一底座所構成。該前框、後殼的目的即在於夾 持、包覆並固定該液晶面板及其他的電子零組件,如此 ,人們即可觀賞該液晶面板所播放呈現的影像節目。 [0004] 隨著平面顯示器的曰漸普及,卞應用也越麥越多元,越 變化多端。舉例來碼,企業在進行廣告、行銷時,通常 Ο 會藉由龐大的聲、光、影像效果來宣達某項產品的功效 或企業的經營理念’因此常常要求該顯示器結構除了要 有大面積的液晶面板之外,最好還要能有各種的光學、 影像的互相搭配、變化,使其宣傳效果達到最大。然而 ,傳統的顯示器結構僅有液晶面板可用以呈現光學、影 像效果’若需要再加上特殊的光學效果,非額外附加照 明燈源或霓虹燈無法致之。因此,實為美中不足。 [0005] 100110863 因此’如何使顯示器結構在沒有額外附加照明燈源或霓 虹燈的前提下’也能達到特殊的光學效果來與該液晶面 表單編號 A0101 第 3 頁/共 24 1 1002018209-0 201239454 板互相搭配,這是本領域具有通常知識者努力的目標。 【發明内容】 [0006] 本發明主要目的係在沒有額外附加照明燈源或霓虹燈的 前提下,也能使顯示器結構達到特殊的光學效果,來與 其液晶面板互相搭配,達到光學、影像效果的互相搭配 、變化的目標。 [0007] 為了達成上述目的,本發明提供一種具有可發光底部的 顯示器結構,其包括一液晶面板、至少一燈源及一框架 體,該液晶面板位於該顯示器結構的前方;該燈源設置 於該液晶面板下方而可射出亮光;該框架體包括有一半 透光區,該燈源射出的亮光穿越該半透光區而射出。 [0008] 如上所述具有可發光底部的顯示器結構,其中,該燈源 為發光二極體(Light Emitting Diode,LED)、燈條 或燈帶。 [0009] 如上所述具有可發光底部的顯示器結構,其中,該半透 光區的透光率為5%以上。 [0010] 如上所述具有可發光底部的顯示器結構,其中,該半透 光區位於該顯示器結構的最前方或最下方。 [0011] 如上所述具有可發光底部的顯示器結構,其中,該框架 體包覆於該液晶面板的周邊,該框架體的内部包括有至 少一光學通道,該光學通道用以傳遞光線,該半透光區 設置於該光學通道一側,該光學通道另一側設置有多個 反射結構;該顯示器結構更包括有至少一暗箱結構,該 暗箱結構與該光學通道相鄰,且該燈源位於該暗箱結構 100110863 表單編號A0101 第4頁/共24頁 1002018209-0 201239454 内部,該燈源射出的光線可進入該光學通道;該反射結 構的截面呈鋸齒狀、直線狀或曲線狀,該反射結構的表 面或該暗箱結構的内表面附著有反射層,該反射層為塗 附的反射塗料、白色的表層或電鐘的金屬層;沿著光線 前進的方向,該些反射結構的分佈密度係由疏至密,或 者,多個反射結構的大小尺寸均相等。 [0012] Ο [0013] [0014] ❹ 藉此,本發明所述的顯示器結構,在沒有額外附加照明 燈源或霓虹燈的前提下,也能達到特殊的光學效果,來 與其液晶面板互相搭配,達到光學、影像效果的互相搭 配、變化的目標。 為使熟悉該項技藝人士瞭解本發明之目的、特徵及功效 ,茲藉由下述具體實施例,並配合所附之圖式,對本發 明詳加說明如後。 【實施方式】 請參閱圖1Α,圖1Α所繪示為本發明第一實施例之顯示器 結構的剖面圖。如圖1Α所示,一顯示器結構1,其包括有 一液晶面板11、一框架體12、一後殼13及一暗箱結構14 。該液晶面板11位於該顯示器結構1的前方(即圖1Α的左 邊)。該框架體12為一包覆在該液晶面板11的外侧周邊下 方之處的結構體。該框架體12的内部包括有一光學通道 123,該光學通道123可為一空間,也可以是一透明材質 的固體材料(例如:玻璃、壓克力、塑膠、樹脂或其他高 分子聚合物),因此,該光學通道123可用以傳遞光線, 使光線在該光學通道123内自由地行進。該光學通道123 的一侧設置有多個反射結構124,另一側則設置有一半透 100110863 表單編號A0101 第5頁/共24頁 1002018209-0 201239454 光區1 2 5,該半透光區1 2 5係呈弧狀,且位於該顯示器結 構1的最前方(即圖面左邊)的下面之處,該些反射結構 124則位於該半透光區125之内,並與該反射結構124相 距一間隔(P)。該暗箱結構14内部設置有一燈源141,且 該暗箱結構14與該光學通道1 2 3的下端部相鄰而互相連接 ,所以,該燈源141所射出的光線可以進入該光學通道 123 内。 [0015] 在本實施例中,該暗箱結構14的剖面形狀係呈方形的封 閉結構,然而本領域具有通常知識者還可將該暗箱結構 14設計成其他形狀、或者其他半開放式的結構。此外, 每一反射結構124的截面均呈鋸齒狀;多個反射結構124 的大小尺寸均相等,其設置位置係相鄰併排而依序排列 相接,且該反射結構124的表面附著有反射層124A。一般 而言,該反射層124A可為塗附的反射塗料、白色的表層 或者電鍍的金屬層,如此,光線在該光學通道123内傳遞 前進時,即可被該些反射結構124全反射。還有,在較佳 實施例中,沿著光線前進的方向,該些反射結構124的分 佈密度係由疏至密,亦即,在靠近該燈源141之處的反射 結構124之數量較少、分佈密度較小,在遠離該燈源141 之處的反射結構124之數量較多、分佈密度較大;如此, 即可確保光線能量的傳遞能平均地散佈至整個光學通道 123,不會造成亮度分佈不均的狀況。 [0016] 在該光學通道123内行進的多條光線,經由該些反射結構 124全反射後,即可逐漸傳遞至整個半透光區125。如圖 1A的放大圖所示,該半透光區125係同時具有透射光線及 100110863 表單編號A0101 第6頁/共24頁 1002018209-0 201239454 ❹ [0017] 反射光線的雙重作用,因此傳遞至該半透光區125的部份 光線即可穿透過該半透光區125,往該顯示器結構1的外 界射出,另一部份光線即可被反射回該反射結構124之處 。如此,自該燈源141射出的光線,即可沿著該光學通道 123而不斷地被反射、折射,進而使整個半透光區125所 射出的光線能夠均勻地分佈。一般而言,該半透光區125 的透光率為5%以上,即可達較佳之效果。藉此,該顯示 器結構1的框架體12即可透出亮光,再搭配該液晶面板11 的影像視訊,兩者同時交互輝映、閃爍,即可使達到最 佳的廣告、宣傳效果,而無需額外使用照明燈源或霓虹 燈,非常方便。[0003] In terms of appearance, a display structure is composed of a liquid crystal panel, a front frame, a rear case, and a base. The purpose of the front frame and the rear case is to sandwich, cover and fix the liquid crystal panel and other electronic components, so that people can view the video program played by the liquid crystal panel. [0004] With the increasing popularity of flat panel displays, the application of 平面 is more diverse and more varied. For example, when advertising and marketing, companies often use the huge sound, light, and image effects to promote the efficacy of a product or the business philosophy of the company. Therefore, the display structure is often required to have a large area. In addition to the liquid crystal panel, it is better to have a variety of optical and image matching and changing, so that the publicity effect is maximized. However, the conventional display structure only has a liquid crystal panel that can be used to present optical and image effects. If necessary, special optical effects are not required, and no additional illumination source or neon light can be used. Therefore, it is really a fly in the ointment. [0005] 100110863 Therefore, 'how to make the display structure without special additional lighting source or neon light' can also achieve special optical effects with the liquid crystal surface form number A0101 page 3 / 24 1 1002018209-0 201239454 board Matching each other, this is the goal of those who have the usual knowledge in the field. SUMMARY OF THE INVENTION [0006] The main purpose of the present invention is to enable the display structure to achieve a special optical effect without additional lighting source or neon light, to match the liquid crystal panel to achieve optical and image effects. Matching, changing goals. [0007] In order to achieve the above object, the present invention provides a display structure having a illuminable bottom, comprising a liquid crystal panel, at least one light source, and a frame body, the liquid crystal panel being located in front of the display structure; the light source is disposed at The liquid crystal panel is under the light to emit bright light; the frame body includes a half of the light transmitting area, and the light emitted by the light source is emitted through the semi-light transmitting area. [0008] A display structure having a illuminable bottom as described above, wherein the light source is a Light Emitting Diode (LED), a light strip or a light strip. [0009] A display structure having a light-emitting bottom as described above, wherein the semi-transmissive region has a light transmittance of 5% or more. [0010] A display structure having a illuminable bottom as described above, wherein the semi-transmissive region is located at the forefront or the bottom of the display structure. [0011] The display structure having a illuminable bottom as described above, wherein the frame body is wrapped around the periphery of the liquid crystal panel, and the interior of the frame body includes at least one optical channel for transmitting light, the half The light transmission area is disposed on one side of the optical channel, and the other side of the optical channel is provided with a plurality of reflective structures; the display structure further includes at least one black box structure, the dark box structure is adjacent to the optical channel, and the light source is located The black box structure 100110863 Form No. A0101 Page 4 / Total 24 pages 1002018209-0 201239454 Internally, the light emitted by the light source can enter the optical channel; the reflective structure has a sawtooth shape, a straight line or a curved shape, and the reflective structure a reflective layer is attached to the surface or the inner surface of the dark box structure, the reflective layer is a coated reflective coating, a white surface layer or a metal layer of an electric clock; and the distribution density of the reflective structures is along the direction in which the light is advanced. Too dense, or multiple reflective structures are equal in size. [0012] [0014] Thereby, the display structure of the present invention can achieve special optical effects without additional lighting source or neon light, so as to match the liquid crystal panel thereof. Achieve the goal of matching and changing optical and imaging effects. The present invention will be described in detail by way of the following specific embodiments, and the accompanying drawings. [Embodiment] Please refer to FIG. 1A, which is a cross-sectional view showing a structure of a display according to a first embodiment of the present invention. As shown in FIG. 1A, a display structure 1 includes a liquid crystal panel 11, a frame body 12, a rear case 13, and a dark box structure 14. The liquid crystal panel 11 is located in front of the display structure 1 (i.e., to the left of Fig. 1A). The frame body 12 is a structure that is wrapped around the outer periphery of the liquid crystal panel 11. The interior of the frame body 12 includes an optical channel 123, which may be a space or a solid material of transparent material (for example, glass, acrylic, plastic, resin or other high molecular polymer). Thus, the optical channel 123 can be used to transmit light such that light travels freely within the optical channel 123. One side of the optical channel 123 is provided with a plurality of reflective structures 124, and the other side is provided with a half transparent 100110863 Form No. A0101 Page 5 / Total 24 Pages 1002018209-0 201239454 Light Zone 1 2 5, the semi-transmissive zone 1 The 205 is arcuate and located below the forefront of the display structure 1 (ie, to the left of the drawing), and the reflective structures 124 are located within the semi-transmissive region 125 and are spaced from the reflective structure 124. One interval (P). A light source 141 is disposed inside the dark box structure 14 , and the dark box structure 14 is adjacent to the lower end of the optical channel 1 2 3 to be connected to each other. Therefore, the light emitted by the light source 141 can enter the optical channel 123. [0015] In the present embodiment, the cross-sectional shape of the dark box structure 14 is a square closed structure, however, those skilled in the art may also design the dark box structure 14 into other shapes, or other semi-open structures. In addition, the cross-section of each of the reflective structures 124 is in a zigzag shape; the plurality of reflective structures 124 are equal in size and size, and the disposed positions are adjacent to each other and arranged in sequence, and the reflective layer 124 has a reflective layer attached to the surface thereof. 124A. In general, the reflective layer 124A can be a coated reflective coating, a white skin layer, or a plated metal layer such that when the light passes through the optical channel 123, it can be totally reflected by the reflective structures 124. Also, in the preferred embodiment, the distribution density of the reflective structures 124 in the direction in which the light travels is from dense to dense, that is, the number of reflective structures 124 near the light source 141 is small. The distribution density is small, and the number of the reflective structures 124 away from the light source 141 is large and the distribution density is large; thus, the transmission of the light energy can be evenly distributed to the entire optical channel 123 without causing A situation in which the brightness distribution is uneven. [0016] A plurality of light rays traveling in the optical channel 123 are totally reflected by the reflective structures 124, and then gradually transmitted to the entire semi-transmissive region 125. As shown in the enlarged view of FIG. 1A, the semi-transmissive region 125 has both transmitted light and 100110863 Form No. A0101 Page 6/24 pages 1002018209-0 201239454 ❹ [0017] The dual function of reflecting light is thus transmitted to the A portion of the light from the semi-transmissive region 125 can pass through the semi-transmissive region 125, exiting the outside of the display structure 1, and another portion of the light can be reflected back to the reflective structure 124. In this way, the light emitted from the light source 141 can be continuously reflected and refracted along the optical channel 123, so that the light emitted from the entire semi-transmissive region 125 can be uniformly distributed. In general, the light transmittance of the semi-transmissive region 125 is 5% or more, and a better effect can be obtained. Thereby, the frame body 12 of the display structure 1 can transmit the bright light, and then the image video of the liquid crystal panel 11 can be used to simultaneously achieve the best advertising and publicity effects without additional It is very convenient to use a light source or a neon light.
在較佳實施例中,該燈源141以發光二極體(Light Emitted Diode,LED)為首選,其原因在於LED的體積 小、亮度大且較省電,如此,該暗箱結構14較不佔空間 。還有,該暗箱結構14的内表面也可以進一步地附著或 塗附反射層14A,因此該燈源141所射出的光線即可以全 部進入該光學通道123,不會產生光能量浪費、消耗的狀 況。如前所述,該反射層14A也可以是塗附的反射塗料、 白色的表層或電鍍的金屬層等技術手段,其目的在於增 加該暗箱結構14内之光線反射的比率。 [0018] 請再同時參閱圖1A與圖1B,圖1B所繪示為本發明第一實 施例之顯示器結構的前視圖。當該燈源141點亮時,該顯 示器結構1的框架體12即可藉由發光的半透光區125,而 具有特殊的光學效果。該燈源141係可採用變色的LED, 或以多個燈源141安裝在該暗箱結構14内,來達到不同顏 100110863 表單編號A0101 第7頁/共24頁 1002018209-0 201239454 色變化的目的。此時若再配合該液晶面板11所播放的影 像,當人們由黑暗中觀看該顯示器結構1時,即可產生類 似「顯示器底部發光」的特殊效果,非常美麗。 [0019] 請再同時參閱圖1C與圖1D,圖1C所繪示為本發明第一實 施例的反射結構立體圖,圖1D所繪示為本發明第一實施 例的反射結構側面圖。該反射結構124可為V型切槽 (V-Cut),且該V型切槽的尺寸或設置角度可視實際需求 而調整,一般而言,如圖1D所示,該V型切槽的尺寸或角 度改變均可以使該光線的反射、分佈狀況也隨之改變。 [0020] 請參閱圖2與圖3,圖2所繪示為本發明第二實施例的反射 結構側面圖,圖3所繪示為本發明第三實施例的反射結構 側面圖。其中,圖2的多個反射結構224較圖1D的實施例 平緩(斜率較小),圖3的多個反射結構324較圖1D的實施 例陡峭(斜率較大)。因此,反射結構可以因應、配合該 外框的結構而設計,或改變其斜專。 [0021] 請參閱圖4、圖5與圖6,圖4所繪示為本發明第四實施例 的反射結構側面圖,圖5所繪示為本發明第五實施例的反 射結構側面圖,圖6所繪示為本發明第六實施例的反射結 構側面圖。其中,圖4的多個反射結構424的截面呈圓弧 曲線的波浪狀,圖5實施例中的每一個反射結構524均呈 圓弧外凸的形狀,圖6實施例中的每一個反射結構624均 呈圓弧内凹的形狀。 [0022] 當然,本發明之反射結構還可以是平面狀,因此其截面 即呈直線狀。藉此,本發明所述的顯示器結構,在沒有 100110863 表單編號A0101 第8頁/共24頁 1002018209-0 201239454 額外附加照明燈源或霓虹燈的前提下,也能達到特殊的 光學效果,來與其液晶面板互相搭配,達到光學、影像 效果的互相搭配、變化的目標。故本發明的顯示器結構 在廣告、行銷、商業展示、宣傳上的應用,必定具有極 大的應用前景。 [0023] ❹ ❹ 除了上述「落地式」的顯示器結構之外,本發明還可應 用於「底座式」的顯示器結構。請參閱圖7,圖7所繪示 為本發明第七實施例之顯示器結構的前視圖。如圖7所示 ,該顯示器結構7包括有一液晶面板71、一支樓底座77、 多個燈源741及一框架體72。其中,該液晶面板71位於該 顯示器結構7的前方,該支撐底座77設置於該液晶面板71 的下方,多個燈源741設置於該液晶面板71下方的支撐底 座77内部,並藉由該框架體72而將多個燈源741包覆在内 ;在本實施例中,該框架體72係為該支撐底座77下方處 的外殼體結構。如此,多個燈源741即可透過該框架體72 的半透光區(本圖未繪示)而射出亮光;當該燈源741射出 的亮光穿越該半透光區而射出該框架體72時,即可配合 該液晶面板71所播放的影像,而產生類似「顯示器底部 發光」的特殊效果,故可達前述功效。 [0024] 請再參閱圖8,圖8所繪示為本發明第八實施例之顯示器 結構的前視圖。如圖8所示,該顯示器結構8的多個燈源 841係呈長條狀的燈條或燈帶,在較佳實施例中,該燈條 、燈帶係可變色,或可呈現多種不同的色彩。如此,本 發明具有可發光底部的顯示器結構8之顏色變化會更多彩 多姿。 100110863 表單編號A0101 第9頁/共24頁 1002018209-0 201239454 [0025] 本發明以實施例說明如上,然其並非用以限定本發明所 主張之專利權利範圍。其專利保護範圍當視後附之申請 專利範圍及其等同領域而定。凡本領域具有通常知識者 ,在不脫離本專利精神或範圍内,所作之更動或潤飾, 均屬於本發明所揭示精神下所完成之等效改變或設計, 且應包含在下述之申請專利範圍内。 【圖式簡單說明】 [0026] 圖1A所繪示為本發明第一實施例之顯示器結構的剖面圖 〇 [0027] 圖1B所繪示為本發明第一實施例之顯示器結構的前視圖 〇 [0028] 圖1C所繪示為本發明第一實施例的反射結構立體圖。 [0029] 圖1D所繪示為本發明第一實施例的反射結構側面圖。 [0030] 圖2所繪示為本發明第二實施例的反射結構側面圖。 [0031] 圖3所繪示為本發明第三實施例的反射結構側面圖。 [0032] 圖4所繪示為本發明第四實施例的反射結構側面圖。 [0033] 圖5所繪示為本發明第五實施例的反射結構側面圖。 [0034] 圖6所繪示為本發明第六實施例的反射結構側面圖。 [0035] 圖7所繪示為本發明第七實施例之顯示器結構的前視圖。 [0036] 圖8所繪示為本發明第八實施例之顯示器結構的前視圖。 【主要元件符號說明】 [0037] 1、7、8 :顯示器結構 100110863 表單編號A0101 第10頁/共24頁 1002018209-0 201239454 ❹ [0038] 11、71 ·液晶面板 [0039] 12、72 :框架體 [0040] 123 :光學通道 [0041] 124 、 224 、 324 、 ‘ [0042] 124A :反射層 [0043] 125 :半透光區 [0044] 13 :後殼 [0045] 14 :暗箱結構 [0046] 14 A :反射層 [0047] 141 ' 741 ' 841 : [0048] 77 :支撐底座 [0049] P :間隔 100110863 表單編號A0101 第11頁/共24頁 1002018209-0In a preferred embodiment, the light source 141 is preferably a Light Emitted Diode (LED), because the LED is small in size, large in brightness, and relatively power-saving. Thus, the dark box structure 14 is less occupied. space. In addition, the inner surface of the dark box structure 14 can be further attached or coated with the reflective layer 14A. Therefore, the light emitted by the light source 141 can enter the optical channel 123 completely, and the light energy is wasted and consumed. . As previously mentioned, the reflective layer 14A may also be a technical means such as a coated reflective coating, a white skin or an electroplated metal layer, the purpose of which is to increase the ratio of light reflection within the dark box structure 14. 1A and FIG. 1B, FIG. 1B is a front view showing the structure of the display according to the first embodiment of the present invention. When the light source 141 is illuminated, the frame body 12 of the display structure 1 can have a special optical effect by the semi-transmissive region 125 that emits light. The light source 141 may be a color-changing LED, or may be installed in the dark box structure 14 with a plurality of light sources 141 to achieve the purpose of different color 100110863 Form No. A0101 Page 7 / Total 24 Page 1002018209-0 201239454. At this time, if the image played by the liquid crystal panel 11 is further matched, when the display structure 1 is viewed from the dark, a special effect similar to "the bottom emission of the display" can be produced, which is very beautiful. 1C and FIG. 1D, FIG. 1C is a perspective view showing a reflective structure according to a first embodiment of the present invention, and FIG. 1D is a side view showing a reflective structure according to a first embodiment of the present invention. The reflective structure 124 can be a V-shaped cut groove (V-Cut), and the size or set angle of the V-shaped cut groove can be adjusted according to actual needs. Generally, as shown in FIG. 1D, the size of the V-shaped cut groove can be adjusted. Or the angle change can change the reflection and distribution of the light. 2 and FIG. 3, FIG. 2 is a side view of a reflective structure according to a second embodiment of the present invention, and FIG. 3 is a side view of a reflective structure according to a third embodiment of the present invention. Wherein, the plurality of reflective structures 224 of FIG. 2 are gentler (smaller slopes) than the embodiment of FIG. 1D, and the plurality of reflective structures 324 of FIG. 3 are steeper (larger slopes) than the embodiment of FIG. 1D. Therefore, the reflective structure can be designed to match or conform to the structure of the outer frame, or to change its oblique design. Referring to FIG. 4, FIG. 5 and FIG. 6, FIG. 4 is a side view of a reflective structure according to a fourth embodiment of the present invention, and FIG. 5 is a side view of a reflective structure according to a fifth embodiment of the present invention. Figure 6 is a side elevational view of a reflective structure in accordance with a sixth embodiment of the present invention. Wherein, the plurality of reflective structures 424 of FIG. 4 have a circular arc-shaped cross section, and each of the reflective structures 524 in the embodiment of FIG. 5 has a circular arc convex shape, and each of the reflective structures in the embodiment of FIG. 624 are all in the shape of a circular arc. [0022] Of course, the reflective structure of the present invention may also be planar, and thus its cross section is linear. Thereby, the display structure of the present invention can achieve special optical effects without LCD light without the 100110863 form number A0101 page 8/24 pages 1002018209-0 201239454 additional lighting source or neon light. The panels are matched with each other to achieve the goal of matching and changing optical and image effects. Therefore, the application of the display structure of the present invention in advertising, marketing, commercial display, and publicity must have great application prospects. [0023] In addition to the above-described "floor-standing" display structure, the present invention can also be applied to a "base type" display structure. Referring to FIG. 7, FIG. 7 is a front view of a display structure according to a seventh embodiment of the present invention. As shown in FIG. 7, the display structure 7 includes a liquid crystal panel 71, a floor base 77, a plurality of light sources 741, and a frame body 72. The liquid crystal panel 71 is located in front of the display structure 7. The support base 77 is disposed under the liquid crystal panel 71. The plurality of light sources 741 are disposed inside the support base 77 below the liquid crystal panel 71, and the frame is provided by the frame. The plurality of light sources 741 are covered by the body 72. In the present embodiment, the frame body 72 is an outer casing structure below the support base 77. In this manner, the plurality of light sources 741 can emit bright light through the semi-transmissive region (not shown) of the frame body 72; when the light emitted from the light source 741 passes through the semi-transmissive region, the frame body 72 is emitted. In this case, the image played by the liquid crystal panel 71 can be matched to produce a special effect similar to the "light emission at the bottom of the display", so that the aforementioned effects can be achieved. Please refer to FIG. 8. FIG. 8 is a front view of the display structure of the eighth embodiment of the present invention. As shown in FIG. 8, the plurality of light sources 841 of the display structure 8 are elongated strips or strips. In the preferred embodiment, the strips and strips may be discolored or may exhibit various differences. The color. Thus, the color change of the display structure 8 having the illuminable bottom of the present invention is more colorful. 100110863 Form No. A0101 Page 9 of 24 1002018209-0 201239454 [0025] The present invention is described by way of example only, and is not intended to limit the scope of the claims. The scope of patent protection is subject to the scope of the patent application and its equivalent fields. Any changes or modifications made by those skilled in the art without departing from the spirit or scope of the present invention are intended to be equivalent to the equivalents and modifications of the present invention. Inside. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a cross-sectional view showing a structure of a display according to a first embodiment of the present invention. [0027] FIG. 1B is a front view showing a structure of a display according to a first embodiment of the present invention. 1C is a perspective view of a reflective structure according to a first embodiment of the present invention. 1D is a side view of a reflective structure according to a first embodiment of the present invention. 2 is a side view of a reflective structure according to a second embodiment of the present invention. 3 is a side view of a reflective structure according to a third embodiment of the present invention. 4 is a side view of a reflective structure according to a fourth embodiment of the present invention. [0033] FIG. 5 is a side view of a reflective structure according to a fifth embodiment of the present invention. 6 is a side view of a reflective structure according to a sixth embodiment of the present invention. 7 is a front elevational view showing the structure of a display according to a seventh embodiment of the present invention. 8 is a front elevational view showing the structure of a display according to an eighth embodiment of the present invention. [Main component symbol description] [0037] 1, 7, 8: Display structure 100110863 Form number A0101 Page 10/24 pages 1002018209-0 201239454 ❹ [0038] 11, 71 · Liquid crystal panel [0039] 12, 72: Frame Body [0040] 123: optical channel [0041] 124, 224, 324, '[0042] 124A: reflective layer [0043] 125: semi-transmissive region [0044] 13: rear case [0045] 14: dark box structure [0046 14 A : Reflective layer [0047] 141 ' 741 ' 841 : [0048] 77 : Support base [0049] P : Interval 100110863 Form number A0101 Page 11 / Total 24 pages 1002018209-0