201024807 九、發明說明: ' 【發明所屬之技術領域】 本發明係指一「光幕鏡」,其中,該光幕鏡内含有光擴 散微粒子,且該光幕鏡可據光線由侧端面射入該光幕鏡, 利用該光擴散微粒子折射光線’並由透光反射層之相對另 一侧面折射出該光幕鏡之技術領域者。 【先前技術】 Φ 首按,一般用於日常生活起居與工作辦公環境採光及 室内外之隔離,常以各式透光率不等玻璃、Pc、壓克力板 件所I成之帷幕或門窗為之,一方面可適當量擷取室外自 然光線以節約照明設備所消耗之能源、另一方面更可適切 促使新鮮空氣產生自然對流;但以上所述之各式隔離板件 雖然已被廣泛使用,卻常因當天色昏暗後而致隔離板件兩 側之光亮度出現較高落差時,易導致視覺穿透性互調而造 成隱私外洩之困擾(例如夜晚時可由較昏暗之室外處清晰 參透視較光亮之屋内的行為舉動),故常需加以各式視線隔離 物件辅佐之。而通常區隔物件之局部實施,如下舉例所示: 請參閱第一圖所示,係為習用之簾幕實施示意圖;其 中’使用者所運用之一採光牆1實施是據:一透明玻璃10 加裝活動式簾幕12 (其活動式簾幕12可為:布幕或百葉 簾)作為採光兼區隔物件實施。不然透明玻螭1 〇即以貼合 隔熱反光膜11處理,主要實施於辦公大樓之帷幕牆及採光 囱。又於百貨服飾業之試穿更衣區門板則常以明鏡、不透 光材質、布幕所搭配製成(百貨服飾業之試穿更衣區在此 201024807 未繪出)。而透明玻璃i〇於實施狀態有小型辦八 型辦公會議室在此未繪幻,彳、型辦公會議、、歲室(小 10配合各式1U定支架13為使關的,並續明破續 處加裝活動式簾幕12 (其活動式簾幕12可、明破璃10 葉簾)做為區隔’並以轉向t 122來控制活動·布幕或百 葉片121之開、閉,藉葉片121開、閉而擋住'幕12 改變視覺之穿透性。 观線,進而 e 請參閱第二圖(a)(b)所示,係分別為習用 接出光槽實施示意圖;其中,第二圖(a)該立牆=接、間 氛照明或天花板間接出光氣氛照明,一般多以 出光氣 接出光槽2A為之(整體天花板或立膽此未槽狀的直 出光槽2A常採用不具透光度材質之固定架23 且直接 定架23材質多為木材或塑膠製作,而後,曰光户1,其固 固定线於固定架23之預定位置,独此作為輿 =20再 線之隔離,令光線先投射於裝潢板件22#射而丨,,,現 反光板21反射而直接出光槽2A,以製造柔合之氣氛由 又如第二圖(b)另一常以間接出光槽2B為之(整^天花^ 或立牆此未繪出),間接出光槽2B亦常採用不具透光戶材 質之固定架23製作,其固定架23材質多為木材或塑^製 作,而後,曰光燈管20再固定組裝於固定架23之預定位 置,並以此作為與使用者視線之隔離,令光線經由反光板 21反射或直接投射於半透光板24而出間接出光槽2B。 承上’玻璃帷幕採光牆與出光槽常把原本已不寬敞的 201024807 空間區隔成更侷促格局,以致使得室内生活倍感壓迫與嚴 重影響生活品質,更致室内有相當稃度之光線阻隔及影響 照射廣泛度。俾此’為解決上述區隔物件實施缺失,實有 待新科技產品來取代,以圖精進與造福人群。 【發明内容】 鑑於以上所述,得知習用透光性區隔物件使用,常有 相當程度之隱私性外洩問題,致需搭配以布幕簾、百葉簾 ❿類等機動性二次隔離設備,造成不必要之空間浪費與使用 不便利,更有光線阻隔之影響照射疑慮缺失,故欲提升透 光性區隔物件使用態樣,實有效益改進之必要,此改進之 必要性令本發明人朝透光性區隔板件之功效提升為主要研 發方向,並經由多方思考設計,遂而思及,令透光性區隔 板件採主動式補光模式定位為最佳實施方式。 是之,該透光性區隔板件可為一光幕鏡,其中,該光 幕鏡包含有:尚折光板件與透光反射層以及發光元件;該 參高折光板件添掺有光擴散微粒子;並於該高折光板件之二 侧面被覆有可讓局部光線穿透的該透光反射層;且該高折 光板件周緣分佈有照射該光擴散微粒子之發光元件。該發 光元件另可銜接有散發熱能之均熱支撑架組件,該均熱支 撑架組件並可增具散熱支撐架組件。 ~ 另該高折光板件表面可覆著之透明硬化層或微結構 層’並藉該微結構層於該高折光板件表面製作出圖案。 又該高折光板件與該發光元件相對位置另設有光線入 射最大角度擴散或聚焦之入光凸緣與入光凹槽,且該發光 7 201024807 ' 元件組可增具有電路控制組。 • 據上,本發明之主要目的在於:該高折光板件可據發 光元件所發光線照射該光擴散微粒子,利用該光擴散微粒 子對光線折射’令該高折光板件轉換成一片存具有光能量 之光亮化光霧形態板件,據此光霧化形態產生加以該高折 光板件之一侧面,被覆有只可讓局部光線穿透的該透光反 射層’進而令該透光反射層兩侧面產生光通亮之高度落 籲差,致該高折光板件可實施為視覺隔離作用,並得以利用 該高折光板件内之光霧能量以施為光形造景之依據,俾以 該高折光板件之光折射效果極佳與光亮化之光霧化形態轉 變’有效摒除習知視線穿透之缺失,由此光牆形態轉變, 更令本發明於發光元件未使用時可具可透光、可透視效 益,而成為本發明之主要優益處。 本發明之次要目的在於:該高折光板件可據發光元件 所發光線照射該光擴散微粒子,利用該光擴散微粒子對光 春線折射,令該高折光板件轉換成一片存具有光能量之光亮 化光霧形態板件,據此光霧化形態產生加以該高折光板件 之一侧端面,適當位置裝設雷射光源再藉由雷射光束之集 中照射,運用高折光板件本身之特佳材質界面反射特性, 以及反光層之加強反射再而重覆反射作用,可於高折光板 件板内製作出光束圖案組合,更令本發明於使用於内、外 牆面之光造景更具新奇性效益,而成為本發明之次要優益 處。 8 201024807 本發明之又一目的在於··該高折光板件可據發光元件 • 所發光線照射該光擴散微粒子,利用該光擴散微粒子對光 線折射’令該高折光板件轉換成一片存具有光能量之光亮 化光霧形態板件,據此光霧化形態產生加以該高折光板件 之一侧面設有反光層’該高折光板件内部存具之光能量再 由反光層之對向穿透射出該高折光板件,藉此機制有效降 低傳統氣氛照明系統過度佔據空間及出光效率不佳之缺 鲁點,而成為本發明之又一優益處。 【實施方式】 今為使貴審查委員對本發明有更進一步之瞭解,茲 佐以下列實施例說明之。201024807 IX. Description of the invention: 'Technical field to which the invention pertains>> The present invention refers to a "light curtain mirror" in which the light curtain mirror contains light-diffusing particles, and the light curtain mirror can be incident from the side end face according to the light The light curtain mirror utilizes the light diffusing microparticles to refract light ray and is refracted by the opposite side of the light transmissive reflective layer from the light curtain mirror. [Prior Art] Φ First press, generally used for daily life and work office environment lighting and indoor and outdoor isolation, often with various types of light transmittance, glass, Pc, acrylic sheet I made curtains or doors and windows For this reason, on the one hand, it can appropriately absorb outdoor natural light to save energy consumed by lighting equipment, and on the other hand, it can promote natural convection of fresh air; however, various isolation plates described above have been widely used. However, due to the darkness of the day, the brightness of the two sides of the board is high, which may lead to visual transparency and mutual interference, which may cause privacy leakage (for example, it can be clear at night when the night is darker) Seeing the behavior of the house in a brighter light, it is often necessary to use a variety of sight-line isolation objects to assist. However, the partial implementation of the partition object is generally as follows: Please refer to the first figure, which is a schematic diagram of a conventional curtain; wherein one of the lighting walls 1 used by the user is implemented as follows: a transparent glass 10 A movable curtain 12 (the movable curtain 12 can be: a curtain or a venetian blind) is installed as a daylighting and partitioning object. Otherwise, the transparent glass 螭 1 处理 is treated with a laminated insulating film 11 , which is mainly implemented in the curtain wall and lighting chim of the office building. In the department store apparel industry, the door-to-door area of the dressing area is often made up of mirrors, opaque materials and curtains. (The dressing and dressing area of the department store is not shown here). The transparent glass i is in the state of implementation, there is a small office type eight office conference room, here is not painted, the 彳, type office meeting, the old room (small 10 with various types of 1U fixed bracket 13 for the clearance, and continued to break At the continuation, the movable curtain 12 (the movable curtain 12 and the bright glass 10 curtain) is used as the compartment 'and the steering t 122 is used to control the opening and closing of the activity screen or the louver 121. By opening and closing the blade 121, blocking the curtain 12 to change the visual penetration. Observing the line, and then e, as shown in the second figure (a) and (b), respectively, is a schematic diagram of the implementation of the optical trough; Figure 2 (a) The vertical wall = connection, ambient illumination or ceiling indirect lighting atmosphere, generally with phosgene exiting the light groove 2A (the whole ceiling or the vertical groove of the straight groove 2A is often not used The fixing material of the translucent material 23 and the material of the direct fixing frame 23 are mostly made of wood or plastic, and then, the Shuguang household 1 has a fixed fixing line at a predetermined position of the fixing frame 23, and is isolated as a 舆=20 re-line. , the light is first projected on the decorative panel 22#, and the reflective panel 21 reflects and directly emits light. 2A, in order to create a soft atmosphere, as in the second figure (b), another indirect light trough 2B (the whole ^ ceiling ^ or the vertical wall is not drawn), the indirect light trough 2B is also often not transparent The fixing frame 23 of the light household material is made, and the material of the fixing frame 23 is mostly made of wood or plastic. Then, the fluorescent tube 20 is fixedly assembled at a predetermined position of the fixing frame 23, and is used as a separation from the user's line of sight. The light is reflected by the reflector 21 or directly projected onto the semi-transmissive plate 24 to exit the indirect exit slot 2B. The glass curtain wall and the light exit slot often divide the originally unpopular 201024807 space into a more cramped pattern. As a result, the indoor life feels oppressive and seriously affects the quality of life, and the indoor light has a considerable degree of light barrier and affects the illumination. Therefore, in order to solve the lack of implementation of the above-mentioned partitions, it is necessary to replace the new technology products. In the light of the above, it is known that the use of light-transmissive partitions often has a considerable degree of privacy leakage, which is required to be matched with curtains and venetian blinds. Such as the mobile secondary isolation equipment, resulting in unnecessary space waste and inconvenient use, and the lack of light barriers affecting the lack of illumination concerns, so it is necessary to improve the use of light-transmissive partitions, which is necessary for improvement. The necessity of improvement has made the inventors improve the efficiency of the light-transmissive partition plate member into the main research and development direction, and through multi-consideration design, the thinking is made, and the light-transmissive partition plate member adopts the active light-filling mode positioning. Preferably, the light transmissive spacer member can be a light curtain mirror, wherein the light curtain mirror comprises: a light-reducing plate member and a light-transmitting reflective layer and a light-emitting element; The plate member is doped with light-diffusing particles; and the two sides of the high-refractive plate member are covered with the light-transmissive reflective layer for allowing local light to penetrate; and the periphery of the high-refractive plate member is distributed with the light that illuminates the light-diffusing particles element. The illuminating element can also be coupled with a heat-generating support frame assembly with dissipating heat energy, and the heat-receiving support frame assembly can be supplemented with a heat-dissipating support frame assembly. ~ The surface of the high-refractive plate member may be covered with a transparent hardened layer or a microstructure layer', and the microstructure layer is used to form a pattern on the surface of the high-refractive plate member. Further, the high-refractive-plate member and the light-emitting element are further provided with a light-incident-integrated diffusing or focusing light-incident flange and a light-incident groove, and the light-emitting element can be added with a circuit control group. According to the present invention, the main object of the present invention is that the high-refractive-plate member can illuminate the light-diffusing particles according to the light-emitting line of the light-emitting element, and the light-diffusing particles are used to refract light. The light of the light illuminates the light mist form plate, and according to the light atomization form, one side of the high refractive plate member is coated, and the light transmissive reflective layer which can only penetrate the local light is coated, and the light transmissive reflective layer is further The height of the light-emitting surface is different between the two sides, so that the high-refractive plate member can be implemented as a visual isolation function, and the light fog energy in the high-refractive plate member can be utilized to apply the light-shaped landscaping. The light refraction effect of the refraction plate is excellent and the photo-atomization transformation of the illuminating light effectively eliminates the lack of the conventional line of sight penetration, thereby changing the shape of the light wall, and further making the invention transparent when the illuminating element is not in use. Light and perspective benefits are the main advantages of the invention. A secondary object of the present invention is that the high-refractive-plate member can illuminate the light-diffusing particles according to the light-emitting line of the light-emitting element, and the light-diffusing particles are used to refract the light-spring line, so that the high-refractive-plate element is converted into a piece of light energy. The illuminating haze-shaped plate member is formed according to the light atomization form, and one side end surface of the high-refractive plate member is disposed, a laser light source is installed at an appropriate position, and the laser beam is concentratedly irradiated, and the high-refractive plate member itself is used. The reflective properties of the interface of the special material, as well as the enhanced reflection of the reflective layer and the repetitive reflection effect, can produce a beam pattern combination in the high-refractive plate plate, and further make the invention use the light landscaping for the inner and outer walls. More novelty benefits are the secondary benefits of the invention. 8 201024807 Another object of the present invention is that the high-refractive-plate member can illuminate the light-diffusing particles according to the light-emitting element and the light-emitting line, and the light-diffusing particles are used to refract light to convert the high-refractive-plate member into a piece. The light energy illuminates the light mist form plate, and according to the light atomization form, a light reflecting layer is disposed on one side of the high refractive plate member. The light energy of the internal light storage device of the high refractive plate member is opposite to the reflective layer. It is another advantageous benefit of the present invention to penetrate the high-refractive-plate member, thereby reducing the excessive space occupied by the conventional atmosphere illumination system and the lack of light-emitting efficiency. [Embodiment] Now that the reviewer has a better understanding of the present invention, the following examples are described.
請參閱第三圖所示,係為本發明之第一實施組合示意 圖;本發明係有關一種光幕鏡,該光幕鏡3至少包括有: 高折光板件30、發光元件31、透光反射層32 ;該高折光 板件30添摻有光擴散微粒子3〇1 ;並於該高折光板件 之一侧面被覆透光反射層⑽;且該冑折光板件30侧端面 設有一個以上照射該光擴散微粒子3〇1之發光元件31。 是之 故间外尤敗仵川可由壓克力系、PC系與矽基 玻璃等材質所製成’並於該高折光板件3Q之—侧面被覆可 令局部光線穿透的透光反射層32,另該高折光板件30於 侧端面周緣分佈有照射該光擴散微粒子之發光元件 ^。商折絲件30固接有該發光元件31,且該發光元件 =可固接有散發熱能之均熱支撑架組件311或具散熱支 撑架組件312 ’而該均熱支撐架組件311可增具散熱支撐 9 201024807 架組件312、電路控制組314及電源313,據該電源313 '將電能輸入該電路控制組314供該發光元件31運作。而 當該發光元件31之光線由侧端面射入該高折光板件内 部時’利用其該南折光板件30材體内含有該光擴散微粒子 301對光線產生折射、反射、散射等效應而產生一道高亮 度之亮光霧牆’進而促使該高折光板件30具高光亮度與視 覺半穿透性化’使得原本不具光通量之該高折光板件 ❿瞬間轉換為高光亮霧化狀態’並可隨著入射光之顏色變化 而轉換該南折光板件30之色彩’更因該透光反射層32之 區隔作用,即使室内區B之光亮度高過室外區a甚多,視 覺穿透性亦會因該高折光板件30之板件體具高光亮度而 被禰平’如同白晝一般由室外區A無法透視室内區b之影 像。故可廣泛運用於建築物外膽與空間隔離及營造情境氣 氛之顯示照明用途’且光幕鏡3其高折光板件30及透光反 ©射層32表面可覆保護作用之透明硬化層302。 請參閱第四圖所示,係為本發明之第二實施組合示意 圖’其中’該光幕鏡4可以不同形式另加裝於均熱支撐年 組件40之散熱模組4(U、402,據裝該散熱模組4〇1、402 協助較高功率之發光元件41排散發光時之巨量熱能。另光 幕鏡4之高折光板件42及透光反射層43表面可覆著有抗 刮之透明硬化層421,該透明硬化層421旨在保護該高折 光板件42、該透光反射層43不受外力沖擊,以及防止該 高折光板件42、該透光反射層43磨損,致該高折光板件 201024807 ' 42可有效延長使用壽命。 请參閱第五圖所示,係為本發明之發光元件以C〇f L冷陰極管實施示意圖;其中,該光幕鏡5所設c c F L 冷陰極管51在光線產生之品質與亮度極佳。而高折光板件 50與相對位置另設有光線入射最大角度擴散之入光凹槽 501及聚焦入光凸緣502。且均熱支撑架組件52為防止漏 光與滲水,該均熱支撐架組件52特於該高折光板件之 鲁侧面設有阻光阻水條521,該阻光阻水條521設置可免該 C C F L冷陰極管51受潮溼與污垢以及防止光能外洩,並 為使該C C F L冷陰極管51之光能可被充份利用,又可於 入光處之另一側端面處裝配有收集光線之集光板511,以 促使光源之可完全射入高折光板件50,且於均熱支撐架組 件52另侧可設有電路控制組512。 請參閱第六圖所示’係為本發明之發光元件以L ed 光源實施示意圖,其中,光幕鏡6該高折光板件β〇具有入 參光凹槽61,LED光源62恰可置入入光凹槽6i,aLE D光源62之光能可借入光凹槽61以大角度射入高折光板 件60。高折光板件60之表面另可實施有微結構層63,藉 微結構層63設置’可於高折光板件6〇表面製作出圖案(圖 案在此未繪出)’期以此滿足光幕鏡6能製造出各式造型, 為讓光幕鏡6之使用功能更廣泛,另於高折光板件6〇之 適當位置裝設有雷射光源64,並可於高折光板件60周圍 除入光凹槽61以外處另加被覆反光層641,藉雷射光束 11 201024807 642之集中照射以及反光層641之加強反射再而重覆反射 作用’可於高折光板件60板内製作出光束圖案組合。 請參閱第七圖所示’係為本發明之實施示意圖;其中, 該光幕鏡7於高折光板件70可另貼合有各式造型凸體物 71,該凸體物71又可具多重顏色及不等之透明度,據此 多元化組合以創造更多樣化藝術造型。 請參閱第八圖所示’係為本發明之另一具體實施示意 參圖,其中,該光幕鏡8於高折光板件80之透光反射層81 相對應之出光面上被覆有顏色層82用以創造出圖案。又 可施以製造出各式角錐凹槽83與微細溝槽84,利用其角 錐凹槽83與微細溝槽84各折射面角度交錯因素而致光能 重疊,可為單調之光形變化出更豐富效果。更可在高折光 板件80之侧端面施以表面陵角切割面85,以使光線穿透 及反射時產生散射作用。 φ 請參閱第九圖所示,係為本發明之再一具體實施示意 圖;其中,該出光槽9以固定架95固接安裝具散熱支撐 架組件92,並用以裝置發光源91及高折光板件9〇,發光 源91所激發之光線經由高折光板件9〇,再由反光層Q3 之對向穿透射出高折光板件90,並將一部分光線投在裝潢 板件94以營造氣氛。 據上,本發明之主要優點在於:該高折光板件可據發 光元件所發光線照射光擴散微粒子,利用光擴散微粒子對 光線反射、折射,令原極為透明之該高折光板件轉換成具 12 201024807 光亮化之光霧化形態’據此光霧化形態加以因透光反射層 .之透光率多寡而有不同程度的隔離,致該高折光板件兩側 面呈高光亮對比,據此可實施為視覺隔離使用,俾以該高 折光板件之光亮化與光霧化形態轉變,有效摒除習知視線 穿透之缺失,由此形態轉變,更令本發明於發光元件於啟 動或未啟動之情況下,依然具透光性、防窺視之效益,而 成為本發明之主要優益處。 參 綜上所述,當知本案所發明之新穎結構已具有產業利 用性、新穎性與進步性,誠符合發明專利要件。惟以上所 述者’僅為本發明之-較佳實施例而已,並非用來限定本 發明實施之範圍。即凡依本發明申請專利範圍所做的均等 變化與修飾,皆為本發明專利範圍所涵蓋。 ❹ 13 201024807 【圖式簡單說明】 圖式說明: 第一圖係為習用之簾幕實施示意圖。 第二圖(a)係為習用之直接出光槽實施示意圖。 第二圖(b)係為習用之間接出光槽實施示意圖。 第三圖係為本發明之第一實施組合示意圖。 第四圖 ❹第五圖 係為本發明之第二實施組合示意圖。 係為本發明之發光元件以c C F L冷陰才逐 管實施示意圖。 第六圖 係為本發明之發光元件以L E D光源實施 示意圖。 第七圖 係為本發明之立體凸物貼合具體實施示意 圖。 .第八圖 參第九圖 係為本發明之另一具體實施示意圖。 係為本發明之再一具體實施示意圖。 附圖第一圖係為本創作之原始示意圖。(光平衡未入 射光線情況下之具反射鏡功能,鏡中可 見拍照者之投影) 附圖第二圖係為本創作之實際實施展示圖。(當光通 量產生差異時,由較昏暗區域可清晰透· 視較明亮區之燈具及擺設物) 附圖第三圖係為本創作之第一實際實施單一顏色微 201024807 細量入射光之展示圖。 附圖第四圖係為本創作之第二實際實施單一顏色小 量之光源入射所產生之差異展示圖。(較 靠近光源處已漸模糊而具遮蔽作用) 附圖第五圖係為本創作之第三實際實施高光能量光 源入射所產生之差異展示圖。(該高折 光板件已因高度光亮化而完全遮蔽背 面之景物) 附圖第六圖係為本創作之第四實際實施高對比顏色 之光源入射所產生之差異展示圖。 附圖第七圖係為本創作之第五實際實施具顏色之光 源入射所產生之差異展示圖。 附圖第八目絲本創作之第六實際實施雷射之光源 入射所產生之正、反面差異展示圖。 附圖第九冑係、為本創作之第七實際實施雷射之光源 入射所產生之折射效果展示圖。 附圖第十圖係、為本創作之第人實際實施雷射之光源 因入射面與反射面之陵角切割面結構所 產生之散射效果展示圖。 【主要元件符號說明】 (習用) 15 201024807 ' 1....採光牆 10....透明玻璃 • 13....固定支架 12....活動式桌幕 121....葉片 122____轉向索 11....隔熱反光膜 2A....直接出光槽 20....曰光燈管 23....固定架 21 ....反光板 22....裝潢板件 2B....間接出光槽 24....半透光板 ® (本發明) 3....光幕鏡 30....高折光板件 301....光擴散微粒子 32....透光反射層 302....透明硬化層 31....發光元件 311.. ..均熱支撑架組件312....具散熱支撐架組件 314.. ..電路控制組 313....電源 32....透光反射層 B....室内區 A____室外區 4....光幕鏡 40....均熱支撑架組件 401____散熱模組 402____散熱模組 41____發光元件 42....高折光板件 421....透明硬化層 43....透光反射層 5....光幕鏡 5 0....局折光板件 502....入光凸緣 501....入光凹槽 201024807 ~ 51....CCFL冷陰極管 511—集光板 ’ 512....電路控制組 52....均熱支撑架組件 521....阻光阻水條 6....光幕鏡 60....高折光板件 61....入光凹槽 62.... L E D 光源 63....微結構層 64....雷射光源 641....反光層 @ 7…..光幕鏡 642.. ..雷射光束 70.. ..高折光板件 71....凸體物 8....光幕鏡 80....高折光板件 81....透光反射層 82....顏色層 83....角錐凹槽 84____微細溝槽 85____陵角切割面 86....發光源 9.. ..出光槽 參 91.. ..發光源 9 0....南折光板件 92....具散熱支撑架組件 93....反光層 94____裝潢板件 95....固定架 17Please refer to the third figure for a combination of the first embodiment of the present invention; the present invention relates to a light curtain mirror, the light curtain mirror 3 includes at least: a high refractive index member 30, a light-emitting element 31, and a light-transmissive reflection. a layer 32; the high-refractive-plate member 30 is doped with light-diffusing particles 3〇1; and a light-transmissive reflective layer (10) is coated on one side of the high-refractive plate member; and the side surface of the enamel-folding plate member 30 is provided with one or more illuminations This light diffuses the light-emitting element 31 of the fine particles 3〇1. It is the reason that the outer and outer defeats can be made of acrylic, PC and bismuth-based glass, and the light-reflecting layer that can penetrate the side of the high-refractive plate 3Q can penetrate the local light. 32. In addition, the high-refractive-plate member 30 has a light-emitting element that illuminates the light-diffusing particles on the periphery of the side end surface. The stencil member 30 is fixed to the illuminating member 31, and the illuminating member=the soaking heat support frame assembly 311 or the heat dissipating support frame assembly 312' The heat dissipating support 9 201024807 is a frame assembly 312, a circuit control group 314 and a power source 313. According to the power source 313', power is input to the circuit control group 314 for the light emitting element 31 to operate. When the light of the light-emitting element 31 is incident on the inside of the high-refractive-plate member by the side end surface, the light-diffusing particles 301 in the south of the light-reducing plate member 30 are used to refract, reflect, and scatter light. A high-brightness bright fog wall' further promotes the high-brightness and visual semi-transparency of the high-refraction plate member 30, so that the high-refractive plate member without the luminous flux is instantaneously converted into a high-light atomization state. The color of the south refractive plate member 30 is changed by the color change of the incident light. Further, even if the brightness of the indoor area B is higher than that of the outdoor area a, the visual penetration is also high. Due to the high brightness of the plate member of the high-refractive plate member 30, it is flattened. As in the case of white, the image of the indoor zone b cannot be seen from the outdoor zone A. Therefore, it can be widely used for the display illumination of the building outer liner and the space to create a situational atmosphere. The light curtain mirror 3 has a high-refractive-plate member 30 and a transparent hard-cured layer 302 on which the surface of the light-transmitting reflective layer 32 can be protected. . Please refer to the fourth embodiment, which is a schematic diagram of the second embodiment of the present invention. The light curtain mirror 4 can be additionally installed in the heat dissipation module 4 of the soaking support unit 40 (U, 402, according to The heat dissipating module 4〇1, 402 is arranged to assist the higher power light-emitting element 41 to dissipate a large amount of thermal energy when the light-emitting element 41 is dissipated. The surface of the high-refractive-plate element 42 and the light-transmitting reflective layer 43 of the light curtain mirror 4 may be covered with anti-reflection. The transparent hardened layer 421 is designed to protect the high-density plate member 42 from the external force, and to prevent the high-resolution plate member 42 and the light-transmitting reflective layer 43 from being worn. The high refractive index member 201024807 '42 can effectively extend the service life. Please refer to the fifth figure, which is a schematic diagram of a C〇f L cold cathode tube of the light-emitting element of the present invention; wherein the light curtain mirror 5 is provided The cc FL cold cathode tube 51 has excellent quality and brightness in light generation, and the high refractive index member 50 and the opposite position are additionally provided with a light incident groove 501 which is diffused at a maximum angle of incidence of the light and a light incident flange 502. The support frame assembly 52 is configured to prevent light leakage and water seepage. 52 is arranged on the side of the high-refractive plate member to be provided with a light-blocking water-blocking strip 521. The light-blocking water-blocking strip 521 is arranged to prevent the CCFL cold cathode tube 51 from being exposed to moisture and dirt and to prevent leakage of light energy, and The light energy of the CCFL cold cathode tube 51 can be fully utilized, and the light collecting plate 511 for collecting light can be assembled at the other end surface of the light entrance portion, so that the light source can be completely injected into the high refractive plate member 50, And the circuit control group 512 can be disposed on the other side of the soaking support frame assembly 52. Please refer to the sixth embodiment for a schematic diagram of the light-emitting element of the present invention implemented as a L ed light source, wherein the light curtain mirror 6 is high-definition plate The element β〇 has a light-introducing groove 61, and the LED light source 62 can be inserted into the light-receiving groove 6i. The light energy of the aLE D light source 62 can be incident on the high-refractive plate member 60 at a large angle by the light groove 61. High refractive index The surface of the plate member 60 can be further provided with a microstructure layer 63. The microstructure layer 63 can be disposed to form a pattern on the surface of the high-refractive plate member 6 (the pattern is not drawn here) to satisfy the light curtain mirror 6 It can produce all kinds of shapes, in order to make the function of the light curtain mirror 6 wider, and also to use high-refractive plate parts. A laser light source 64 is disposed at an appropriate position, and a reflective layer 641 is additionally disposed around the high-refractive-plate member 60 except for the light groove 61. The concentrated illumination of the laser beam 11 201024807 642 and the enhancement of the reflective layer 641 are performed. The reflection and then the repetitive reflection effect can be used to create a beam pattern combination in the high refractive plate member 60. Please refer to the seventh figure as a schematic diagram of the implementation of the present invention; wherein the light curtain mirror 7 is on the high refractive index plate The piece 70 can be additionally attached with various shapes of convex objects 71, which can have multiple colors and unequal transparency, and thus can be combined to create a more diverse artistic shape. The illustration is a schematic diagram of another embodiment of the present invention, wherein the light curtain mirror 8 is coated with a color layer 82 on the light-emitting surface corresponding to the light-transmissive reflective layer 81 of the high-resolution plate member 80 for creating pattern. Further, various pyramidal grooves 83 and fine grooves 84 can be produced, and the light energy can be overlapped by the angle of the refractive surfaces of the pyramidal grooves 83 and the fine grooves 84, which can change the monotonous light shape. Rich effect. Further, a surface cut surface 85 may be applied to the side end surface of the high refractive index member 80 to cause scattering of light and reflection. FIG. 9 is a schematic view of a further embodiment of the present invention; wherein the light-emitting groove 9 is fixed to the mounting heat dissipation support frame assembly 92 by a fixing frame 95, and is used for the device illumination source 91 and the high refractive index plate. In the case of the light source 91, the light excited by the light source 91 passes through the high-refractive plate member 9, and the light-reflecting layer Q3 is transmitted through the high-refractive-plate member 90, and a part of the light is applied to the decorative panel 94 to create an atmosphere. According to the above, the main advantage of the present invention is that the high-refractive-plate member can illuminate the light-diffusing particles according to the light-emitting line of the light-emitting element, and the light-diffusing particles can be used to reflect and refract light, so that the high-refractive plate member that is originally transparent is converted into a tool. 12 201024807 Luminized light atomization form 'According to this light atomization form, due to the light transmittance of the light transmissive layer, there are different degrees of isolation, resulting in high brightness contrast on both sides of the high refractive plate member. It can be implemented for visual isolation, and the light-lighting and light-atomization morphological transformation of the high-refraction plate member can effectively eliminate the lack of conventional line-of-sight penetration, thereby changing the shape, and further enabling the present invention to be used in the light-emitting element. In the case of start-up, it still has the benefits of light transmission and peep prevention, which is the main advantage of the invention. In summary, when it comes to knowing that the novel structure invented in this case has industrial applicability, novelty and progress, it is in line with the invention patent requirements. However, the above description is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. That is, the equivalent changes and modifications made by the scope of the patent application of the present invention are covered by the scope of the invention. ❹ 13 201024807 [Simple description of the schema] Schematic description: The first diagram is a schematic diagram of the implementation of the conventional curtain. The second figure (a) is a schematic diagram of the implementation of the direct light exit slot. The second figure (b) is a schematic diagram of the implementation of the optical groove between the conventional ones. The third figure is a schematic diagram of the first embodiment of the present invention. Figure 4 is a schematic view of a second embodiment of the present invention. The schematic diagram of the light-emitting element of the present invention is implemented by c C F L cold cathode. Fig. 6 is a schematic view showing the light-emitting element of the present invention implemented as an L E D light source. Fig. 7 is a schematic view showing the concrete implementation of the three-dimensional projection of the present invention. Figure 8 is a schematic view of another embodiment of the present invention. It is a schematic diagram of still another specific implementation of the present invention. The first figure of the drawing is the original schematic of the creation. (The light balance has a mirror function in the case of no incident light, and the projection of the photographer can be seen in the mirror.) The second figure is a practical implementation diagram of the creation. (When the luminous flux is different, it can be clearly seen from the darker areas.) The third picture is the first actual implementation of the creation. Single color micro 201024807 The display of fine incident light . The fourth figure of the drawing is a representation of the difference produced by the second actual implementation of a single color light source incident. (Becoming closer to the light source, it has become obscured and has a shadowing effect.) The fifth figure is a display of the difference caused by the incident of the third practical implementation of the high-light energy light source. (The high-refractive-plate member has completely obscured the scene on the back due to high brightness.) The sixth figure is a representation of the difference in the incidence of the light source of the fourth practical implementation of high contrast color. The seventh figure of the drawing is a diagram showing the difference produced by the incident of the light source having the color of the fifth practical implementation of the present invention. Figure 8 is the sixth actual implementation of the laser source. The source of the difference between the positive and negative sides of the incident. Fig. 9 is a diagram showing the refraction effect produced by the incident light source of the seventh actual implementation of the laser. Fig. 10 is a diagram showing the scattering effect of the light source cutting surface structure of the incident surface and the reflecting surface. [Main component symbol description] (Utility) 15 201024807 ' 1....Lighting wall 10.... Transparent glass • 13....Fixed bracket 12....Active table curtain 121....blade 122___ _ steering cable 11....insulation reflective film 2A....direct light exit slot 20....lighting tube 23....fixing frame 21 ....reflecting plate 22....decorating plate Piece 2B....Indirect light exit 24.. Semi-transparent plate® (Invention) 3.... Light curtain mirror 30....High refractive plate member 301....Light diffusing fine particles 32. ...transparent reflective layer 302....transparent hardened layer 31....lighting element 311... soaking support frame assembly 312....with heat sink support assembly 314.. .. circuit control group 313....Power supply 32....Transparent reflective layer B....Indoor area A____Outdoor area 4....Light curtain mirror 40....Homothermal support frame assembly 401____ Thermal module 402___ _ heat dissipation module 41 ____ illuminating element 42 .... high refractive plate member 421 .... transparent hardened layer 43 .... light transmissive reflective layer 5. ... light curtain mirror 5 0.... local refraction Plate 502....lighting flange 501....lighting groove 201024807 ~ 51....CCFL cold cathode tube 511-light collecting plate '512....circuit control group 52.... Thermal support frame assembly 521.... Photoresist strips 6....light curtains 60....high refractive plate members 61....lighting recesses 62.... LED light sources 63....microstructured layers 64.... Laser light source 641....reflective layer @ 7.....light curtain mirror 642...laser beam 70...high refractive plate member 71....convex object 8....light curtain Mirror 80....high-refractive plate member 81....transparent reflective layer 82....color layer 83....corner groove groove 84____fine groove 85____langle cutting surface 86.... Light source 9.. .. light slot reference 91.. .. light source 9 0.... south refractive plate member 92.. with heat support frame assembly 93....reflective layer 94____ decorating plate 95 ....fixing frame 17