201033449 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種光幕板(二)’具體而言係為利用光 通量來遮蔽視線之穿透度的強化玻螭膠合板件之技術領域 【先前技術】 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 ® 件所製成之帷幕或門窗為之’ 一方面可適當量掏取室外自 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 侧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 β 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,係為習用之採光用複層膠合安全 玻璃窗實施示意圖;其中,複層膠合玻璃1其結構由上下 < 各一片強化玻璃層11,雙片該強化玻璃層11中間夾以一 層具高強韌延伸性、高透明度、高膠粘性之膠合層12,利 用該膠合層12之高黏合性將雙片高硬度之該強化玻璃層 11緊緊固接為一高強度之板體,並藉由該膠合層12所具 201033449 尚強勒延伸性、尚膠枯性之特徵’令該強化玻璃層A強 烈外力作用而龜裂時’不致於產生飛射現象而傷及使用 者;如使用於採光之安全玻璃窗’常於室内區B之侧該強 化玻璃層11貼合被覆有遮光反射層13,藉由該遮光反射 層13將來自室外區A之大多數強光阻隔、反射,降低因 光線直射所帶來過高光通量與幅射熱,並再由支撐框架14 安裝固接於建築物之外部。 請參閱第二圖所示’係為習用之玻璃簾幕實施示意 圖;其中,使用者所運用之一採光牆2實施是據:一透明 玻璃20加裝活動式簾幕22以分隔開放區(A)及隱私區(B) (其活動式簾幕22可為:布幕或百葉簾)作為择光兼區隔 物件實施。不然透明玻璃20即以貼合隔熱反光膜21處 理,以區隔開放區(A)及隱私區(b)主要實施於辦公大樓之 帷幕牆及採光窗。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 穿更衣區在此未繪出)。而透明玻璃2〇於實施狀態有小型 辦公會議室(小型辦公會議室在此未繪出),小型辦公會議 室常以透明玻璃20配合各式固定支架23為使用標的,並 於透明玻璃20處加裝活動式簾幕22 (其活動式簾幕22 可為:布幕或百葉簾)做為區隔,並以轉向索222來控制 活動式簾幕22葉片221之開、閉,藉葉片221開、pa而 擒住視線,進而改變視覺之穿透性。 201033449 承上,玻璃帷幕採光牆之複層膠合玻璃丨如遇強風 , 壓、銳角異物之撞擊,破裂後的複層膠合玻璃丨其結構支 _ 撐力就只剩一層薄薄柔軟的膠合層12,於受損後之抗壓性 極差而令使用者處於危險狀態;用於活動式視覺暫時遮蔽 之活動式簾幕22裝置,常把原本已不寬敞的空間區隔成更 偈促格局,以致使得室内生活倍感壓迫與嚴重影響生活品 質’更致室内有相當程度之光線阻隔及影響照射廣泛度。 ❹ 俾此,本發明人有鑑於為解決上述區隔物件實施缺失,乃 思及發明之恩念’遂以多年的經驗加以設計,經多次探討 試作改良,乃推出本發明,以該新科技產品來取代,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 ❹ 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與安全性,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安全性能 « 與機動性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板,其中,該光幕 5 201033449 板包含有:透明高折光板件、透明玻璃膠合層、.發光元件 • 組;該透明高折光板件内添摻有微細尺度之光擴散微粒 • 子;並於該透明高折光板件之侧面被覆有可讓光線穿透具 高強度保護作用之透明玻璃膠合層,又於靠近室内區之侧 可被覆有遮光反射層;且該透明高折光板件周緣分佈有照 射該光擴散微粒子之發光元件組’該發光元件組另可銜接 於有基本散發熱能之支撐框架,該支撐框架並可增具散熱 ❿ 模組。 另該透明高折光板件表面可覆著之透明顏色層或微結 構層,並藉該透明顏色層或該微結構層於該透明高折光板 件表面製作出顯示圖案。 又該透明高折光板件與該發光元件組相對位置另設有 光線入射最大角度擴散或收斂之凸體入光部與凹槽入光 部,且該發光元件組可增具有感知偵測器與電路控制模組。 ❹ 據上,本發明之主要目的在於提供一種光幕板(二), 其透明高折光板件可據發光元件組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,令該透明高折 / 光板件轉換成一片存具有光能量之光亮化光霧化形態板 件,據此光霧化形態產生加以該透明高折光板件或該透明 玻璃膠合層之一侧面’被覆有只可讓局部光線穿透的該透 光反射層,進而令該光幕板兩侧面產生光通量之高度落 差,致該光幕板可實施為視覺隔離作用,並得以利用該高 201033449 透明折光板件内之光霧能量以施為光形造景之指示顯光俊 據,俾㈣透明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;更^此= 牆形態轉變,令本發明於發光元件組未使用時可具可= 光、可透視效益,可實際實施為採光、隔熱之玻璃帷幕或 明鏡等傳統用途而成為本發明之主要優益處。 一 本發明之次要目的在於提供一種光幕板(二),該光幕 © 板之透明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,令該透明高折 光板件轉換成一片存具有光能量之光亮化光霧化形態板 件’據此光霧化形態產生加以該透明高折光板件之—侧端 面,適畲位置裝設雷射光源再藉由雷射光束之集中照射, 運用兩折光板件本身之特佳材質界面反射特性,以及全反 射層之加強反射再而重覆反射作用,可於透明高折光板件 ©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。 纟發明之又—目的在於提供—種光幕板(二),其透明 -尚折光板件可據發光元件組所發光線㈣該光擴散微粒 子,利用該光擴散微粒子對光線折射,令該透明高折光板 件轉換成-片存具有光能量之光亮化光霧化形態板件,據 此光霧化形態之產生而具視覺半遮蔽性之作用,可藉由感 知摘測器將偵測到之資訊輸入電路控制模組,再由電路控 201033449 制模組提供電能予發光元件組啟動運作,藉此機制有效降 " 低顧客於近距離空間未注意之際而揸及橱窗、自動門、旋 . 轉門等缺點,而成為本發明之又一優益處。 本發明之再一目的在於提供一種光幕板(二),其透明 咼折光板件本身材質之具高強勒性與可彈及低熱傳導性等 特點,結合經強化處理之玻璃膠合層,可再增強帷幕牆及 採光門窗之抗風壓強度,並可於當破璃層已龜裂後,依然 ⑩保有一定程度的支撐強度,更可有效阻絕内、外玻璃層間 之熱傳導,實為綠色建材之良品。 本發明之另一目的在於提供一種光幕板(二),其可利 用光幕板(二)可光亮化與多重色彩演化,並結合顏色層之 多層次圖型組合,依入射光線之強弱及演色而呈列序動態 演換,以最簡易之結構達成多樣化光影造景。 【實施方式】 ❹ 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。 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板(二),該光幕板3至少包含 有:透明高折光板件31、發光元件組33、透明玻璃膠合 層32 ;該透明高折光板件31添摻有微細尺度之光擴散微 粒子311;並於該透明高折光板件31雙側面貼合具有強固 保護作用之透明玻璃膠合層32,該透明玻璃膠合層32包 8 201033449 含有被覆之膠合層321 ’藉此膠合層321以與該透明高折 光板件31固接著;且該透明高折光板件31侧端面設置有 -用以照射該光擴散微粒子311之發光元件组33。 是之’該透明高折光板件31可由壓克力系、PC系與 樹醋系等高導光性及高韌性之材質所製成,以其高韌性且 具彈性度之特性,辅佐以透明玻璃膠合層32之高硬度抗壓 性’形成一完美之高透光耐衝擊之高安全板件;並於該透 ❿明高折光板件31之侧端面周緣分佈有照射該光擴散微粒 子311之發光元件組33。該發光元件組33另可固接於具 有基本排散熱能之支撐框架34,而該支撲框架34可增具 有電路控制模組36及感知偵測器35,據該感知偵測器35 將俄測到之資訊輸入該電路控制模組36,再由該電路控制 模組36適時提供電能予該發光元件組33運作。而當該發 光元件組33之光線由侧端面射入該透明高折光板件31内 ® 部時,利用其該透明高折光板件31材體内含有該光擴散微 粒子311對光線產生折射、反射、散射等效應而產生一道 高亮度之明亮光霧牆,進而促使該透明高折光板件31具高 . 光亮度與視覺半遮蔽性化,使得原本不具光通量之該透明 高折光板件31瞬間轉換為高光亮霧化狀態,並可隨著該發 光元件組33射入之光顏色變化而轉換該透明高折光板件 31之色彩,更因有入射光照射後之該透明高折光板件31 具視覺半遮蔽性狀態,原本之視覺穿透性亦會因該透明高 9 201033449 折光板件31之板件體具高光亮度而被阻絕。故可廣泛運用 於室外區(A)建築物外牆與室内區⑻空間隔離及營造情境 氣氛之顯示照明用途, 胃 請參閲第四圖所示,係為本發明之第二一土 圖;其中’光幕板4之透明高折光板件41為添摻 尺度之光擴散微粒子411的高導光體,另於該透明高折光 板件41之雙侧面貼合具有強化作用之透明清 居201033449 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a light curtain panel (2) which is specifically a technical field of reinforced glass-reinforced plywood members that utilizes luminous flux to shield the visibility of line of sight. Technology] The first press is generally used for daily life and work environment lighting and indoor and outdoor isolation. It is often made of curtains or doors and windows made of glass, pc and acrylic sheets. On the one hand, it can properly 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 mentioned above have been widely used. Often due to the darkness of the day, the brightness of the two sides of the board is high, and it is easy to cause visual penetration and intermodulation, which causes privacy leakage (for example, at night, it can be clearly seen from a dimly lit outdoor perspective). It is often necessary to use a variety of sight-line isolation objects to assist in the behavior of the brighter houses. However, the partial implementation of the partitioning object is generally as follows: Please refer to the first figure, which is a schematic diagram of a conventional multi-layer glued safety glass window for lighting; wherein the laminated glass 1 has a structure from above and below. Each piece of tempered glass layer 11 is sandwiched between two tempered glass layers 11 with a high-strength, high-transparency, high-viscosity, high-adhesive bonding layer 12, and the high adhesion of the bonding layer 12 is used to make the two sheets high in hardness. The tempered glass layer 11 is tightly fastened to a high-strength plate body, and the reinforced glass layer A is strongly externally exerted by the adhesive layer 12 having the characteristics of 201033449 Shang Qiang's extensibility and stagnation property. When cracking, it does not cause flying phenomenon and hurts the user; if it is used for lighting, the safety glass window is often on the side of the indoor area B, and the tempered glass layer 11 is covered with the light-shielding reflective layer 13 by the The light-shielding reflective layer 13 blocks and reflects most of the strong light from the outdoor area A, reduces excessive luminous flux and radiation heat caused by direct light, and is fixedly attached to the outside of the building by the support frame 14. Please refer to the second figure as a schematic diagram of the implementation of the conventional glass curtain; wherein one of the lighting walls 2 used by the user is implemented according to: a transparent glass 20 is equipped with a movable curtain 22 to separate the open area (A And the privacy zone (B) (the movable curtain 22 can be: curtain or venetian blind) is implemented as a light selection and partition. Otherwise, the transparent glass 20 is treated by the laminated heat-insulating reflective film 21 to separate the open area (A) and the privacy area (b) mainly from the curtain wall and the lighting window of the office building. In the department store apparel industry, the door panel of the dressing area is often made of mirrors, opaque materials and curtains. The transparent glass 2 is in the state of implementation, there is a small office conference room (the small office conference room is not drawn here), and the small office conference room is usually made of transparent glass 20 with various fixing brackets 23 as the use target, and at the transparent glass 20 The movable curtain 22 (the movable curtain 22 can be: a curtain or a venetian blind) is used as a compartment, and the steering cable 222 is used to control the opening and closing of the movable curtain 22, the blade 221, by the blade 221 Open, pa and hold the line of sight, thus changing the visual penetration. 201033449 In the past, the multi-layer glued glass of the glass curtain wall is in the case of strong wind, impact, sharp angle foreign matter impact, and the ruptured multi-layer glued glass 丨 its structural support _ support only a thin layer of soft and soft glue layer 12 The pressure resistance after the damage is extremely poor and the user is in a dangerous state; the movable curtain 22 device for the temporary shelter of the movable vision often divides the space which is not already spacious into a more sturdy pattern. As a result, the indoor life feels oppressive and seriously affects the quality of life. The interior has a considerable degree of light barrier and affects the illumination.俾 俾 , , , , , , , 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本Products to replace, in order to improve and benefit the people. SUMMARY OF THE INVENTION In view of the above, it is known that the use of light transmissive partitions often has a considerable degree of privacy leakage, and it is necessary to use a mobile secondary isolation device such as a curtain or a venetian blind. It causes unnecessary waste of space and inconvenience in use, and there is a lack of light barrier to affect the lack of illumination. Therefore, it is necessary to improve the use and safety of translucent partitions, and it is necessary to improve the effectiveness. The inventors have improved the safety performance of the light-transmissive partition plate parts and the maneuverability as the main research and development direction, and through the multi-thinking design, "thinking and thinking" to make the light-transmissive partition plate parts adopt active light-filling Mode positioning is the best implementation. The light transmissive spacer member can be a light curtain panel, wherein the light curtain 5 201033449 panel comprises: a transparent high refractive index member, a transparent glass bonding layer, a light emitting component, a group; the transparent high refractive index The plate is filled with fine-scale light-diffusing particles and is coated on the side of the transparent high-refractive plate member, and the transparent glass bonding layer for allowing light to penetrate with high strength protection is disposed on the side close to the indoor zone. The light-shielding reflective layer may be coated with a light-shielding reflective layer; and the light-emitting component group illuminating the light-diffusing microparticles may be connected to a support frame having basic heat dissipation energy, and the support frame may be added Cooling ❿ module. In addition, the surface of the transparent high-refractive plate member may be covered with a transparent color layer or a micro-structure layer, and the transparent color layer or the microstructure layer is used to form a display pattern on the surface of the transparent high-refractive plate. In addition, the transparent high-refractive plate member and the light-emitting element group are respectively provided with a convex body light-incident portion and a groove light-incident portion where the light is incident at a maximum angle, and the light-emitting element group can be added with a sensing detector and Circuit control module. The main object of the present invention is to provide a light curtain panel (2), wherein the transparent high-refractive-plate member can illuminate the light-diffusing particles according to the light-emitting line of the light-emitting element group, and the light-diffusing particles are used to refract light. The transparent high-fold/light plate member is converted into a light-lighting atomized plate member having light energy, and according to the light atomization form, the transparent high-refractive plate member or one side of the transparent glass bonding layer is covered with only one side The light-transmissive reflective layer that allows partial light to pass through, thereby causing a difference in height of the luminous flux between the two sides of the light curtain panel, so that the light curtain panel can be implemented as a visual isolation function, and the high-profile 201033449 transparent refractive index member can be utilized. The light and fog energy is used as the indicator of the light-shaped landscaping. The light refraction effect of the transparent high-refractive plate is excellent and the light-atomized shape changes, effectively eliminating the lack of conventional line-of-sight penetration; ^This = wall shape change, so that the present invention can have a light-emitting, see-through effect when the light-emitting element group is not in use, and can be practically implemented as a glass curtain or a mirror for lighting or heat insulation. The use of the system is the main advantage of the invention. A secondary object of the present invention is to provide a light curtain panel (2). The transparent high refractive index member of the light curtain panel 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 transparent high-refractive plate member is converted into a piece of light-illuminated light-atomized plate member having light energy, and the side end surface of the transparent high-refractive plate member is generated according to the light atomization form, and the laser is disposed at an appropriate position. The light source is further irradiated by the laser beam, and the reflection property of the excellent material of the two-fold plate member itself, and the enhanced reflection of the total reflection layer and the re-reflection effect can be made in the transparent high-refractive plate plate. The combination of the beam patterns makes the present invention more novel and effective for the light landscaping used for the inner and outer walls, and is a secondary benefit of the present invention.纟Inventively, the object of the invention is to provide a light curtain panel (2), wherein the transparent-refractive-plate member can illuminate the light according to the light-emitting element of the light-emitting element group (4), and the light-diffusing particles are used to refract light, so that the transparent The high-refractive plate member is converted into a sheet-like light-illuminating light-atomized plate member having light energy, and the light atomization pattern is generated to have a visual semi-shielding effect, which can be detected by the sensory picker The information input circuit control module, and then the circuit control 201033449 system module provides power to the light-emitting component group to start operation, thereby effectively reducing the low-customer's close attention to the window, the automatic door, Disadvantages such as spin. Turning the door become another excellent benefit of the present invention. A further object of the present invention is to provide a light curtain panel (2), which has the characteristics of high tensile strength, elasticity and low thermal conductivity of the material of the transparent iridium refractive member, and can be combined with the reinforced glass bonding layer. Enhance the wind-resistant strength of the curtain wall and lighting doors and windows, and when the broken glass layer has been cracked, it still maintains a certain degree of support strength, and can effectively block the heat conduction between the inner and outer glass layers, which is actually green building materials. Good product. Another object of the present invention is to provide a light curtain panel (2) which can utilize the light curtain panel (2) to illuminate and multi-color evolution, and combine the multi-level pattern combination of the color layer, depending on the intensity of the incident light and Performing color and presenting the sequence dynamics, achieving a variety of light and shadow landscaping with the simplest structure. [Embodiment] Now, in order to enable the reviewing committee to have a better understanding of the present invention, the following examples are described. Referring to the third embodiment, it is a schematic diagram of a first embodiment of the present invention; the present invention relates to a light curtain panel (2), the light curtain panel 3 includes at least: a transparent high-refractive plate member 31, and a light-emitting element group 33, a transparent glass bonding layer 32; the transparent high-refractive-plate member 31 is added with fine-scale light-diffusing particles 311; and a transparent glass bonding layer 32 having a strong protective effect is attached to both sides of the transparent high-refractive-plate member 31, The transparent glass bonding layer 32 package 8 201033449 includes a coated bonding layer 321 'by the bonding layer 321 to be adhered to the transparent high-refractive-plate member 31; and the transparent high-refractive-plate member 31 is provided with an end surface for illuminating the The light-emitting element group 33 of the light-diffused fine particles 311. Therefore, the transparent high-refractive-index sheet 31 can be made of a material having high light guiding property and high toughness such as acrylic, PC, and vinegar, and is highly transparent and elastic. The high-hardness compressive property of the glass bonding layer 32 forms a high-security plate with a perfect high-transmission and impact resistance; and the light-diffusing particles 311 are distributed around the periphery of the side end surface of the high-refractive-plate member 31. Light-emitting element group 33. The light-emitting component group 33 can be further fixed to the support frame 34 having a basic heat dissipation energy, and the support frame 34 can be further provided with a circuit control module 36 and a sensing detector 35, according to which the sensory detector 35 The measured information is input to the circuit control module 36, and the circuit control module 36 supplies power to the light-emitting element group 33 in a timely manner. When the light of the light-emitting element group 33 is incident on the inner portion of the transparent high-definition plate member 31 by the side end surface, the transparent high-refractive plate member 31 contains the light-diffusing particles 311 to refract and reflect the light. A high-brightness bright haze wall is generated by the effect of scattering, etc., thereby causing the transparent high-refractive-plate member 31 to have a high brightness and a visual semi-masking effect, so that the transparent high-refractive-plate member 31 having no luminous flux is instantaneously converted. In order to brighten the atomized state, the color of the transparent high-refractive-plate member 31 can be converted according to the color change of the light incident on the light-emitting element group 33, and the transparent high-refractive-plate member 31 after the incident light is irradiated The visual semi-shielding state, the original visual penetration, will also be blocked due to the high brightness of the plate member of the transparent plate member. Therefore, it can be widely used in the outdoor area (A) the external wall of the building and the indoor area (8) to isolate the space and create the display atmosphere for the situational atmosphere. The stomach is shown in the fourth figure, which is the second soil map of the present invention; The transparent high-refractive-plate member 41 of the light curtain panel 4 is a high-light guide body of the light-diffusing fine particles 411 of the doped size, and the transparent side of the transparent high-refractive-plate member 41 is adhered to the transparent clearing of the double-side of the transparent high-refractive-plate member 41.
42及透明暗玻璃膠合層43 ;且該透明高折光板件端 面設置有照射該透明高折光板件41之發光元件組44,並 將該發光元件組44裝置於支撐框架45。為使該發光元件 組44所激發之光能得以較易穿入透明高折光板件彳丨70内 部,可將接受光能穿入之入光處設計成弧凹槽入光部413 或錐凹槽人光部412;當絲板4面積加大時其對應的該 發光元件組44之發光功率也須隨之提升,可將該發光元件 組44裝設在具有較佳排除廢熱功效之散熱支撐框架; 藉此組合利用該發光元件組44對該透明高折光板件41射 入光線,並利用該透明高折光板件41材質體内含有該光擴 散微粒子411,以其對光線產生折射、反射、散射等效應 而產生一道高亮度之明亮光霧牆,進而促使該透明高折光 板件41具高光亮度與視覺半遮蔽性化,加以於靠室内區(B) 貼合有具光遮蔽性功能之該透明暗玻璃膠合層43,加乘作 用使得射入光能之後的該透明高折光板件41將與室外區 201033449 (A)作1¾離更具視覺遮蔽性之作用。 請參閱第五圖所示,係為本發明之發光元件以L e D 光源實施示意圖;其中,該光幕板5可以不同形式另於支 撐框架55加裝散熱模組551、抽換式散熱模組552,藉由 加裝该散熱模組551、抽換式散熱模組552以協助較高功 率之發光元件組54排散發光時之巨量熱能,以降低發光元 件組54因長時間發光而處於過度高溫狀態,致使發光效率 Φ隨著使用時數之增加而降低;更可為方便整體光源模組件 之維修與換裝工程’可將發光元件組54組接於抽換式散熱 模組552,再以簡易之組接方式固定於支撐框架55。另光 幕板5為使發光元件組54所激發之光能得以較易穿入該 透明高折光板件51内部’可將接受光能穿入之入光處設計 成弧凸體入光部511或錐凸體入光部512 ;該透明高折光 板件51於靠近室内區(B)之侧面端,可被覆有遮光反射層 ® 53,並據此遮光反射層53有效隔離室外區(a)過多之強烈 陽光全數射入室内區(B),依不等透光率之設定而讓局部光 線射穿通過,又可將已受入射光照射之該透明高折光板件 51内部原欲穿出射向室内區(B)之入射光,多數量再度反 射回該透明高折光板件51内部,另該透明高折光板件51 之雙側面貼合具有強化作用之透明破璃膠合層52。 請參閲第六圖所示,係為本發明之發光元件組以CCJ?L 冷陰極管實施示意圖;其中,該光幕板6所設CCFL冷陰42 and a transparent dark glass bonding layer 43; and the transparent high refractive index member is provided with a light emitting element group 44 that illuminates the transparent high refractive index member 41, and the light emitting element group 44 is disposed on the support frame 45. In order to enable the light energy excited by the light-emitting element group 44 to easily penetrate into the interior of the transparent high-refractive plate member 70, the light-input light-into-light portion can be designed as an arc groove into the light portion 413 or the concave portion. When the area of the wire board 4 is increased, the corresponding light-emitting power of the light-emitting element group 44 must be increased, and the light-emitting element group 44 can be mounted on a heat-dissipating support having better waste heat removal efficiency. The light-emitting element group 44 is used to inject light into the transparent high-profile plate member 41, and the light-diffusing particles 411 are contained in the material of the transparent high-refractive-plate member 41 to refract and reflect the light. A high-intensity bright haze wall is generated by the effect of scattering, etc., thereby promoting the high-brightness and visual half-shielding of the transparent high-refractive-plate member 41, and the light-shielding function is adhered to the indoor area (B). The transparent dark glass bonding layer 43 is multiplied so that the transparent high refractive index member 41 after entering the light energy will be more visually shielded from the outdoor area 201033449 (A). Referring to FIG. 5 , it is a schematic diagram of a light emitting device of the present invention implemented by a light source; wherein the light curtain panel 5 can be installed in different forms and a heat dissipation module 551 and a heat dissipation module. The group 552 is provided with the heat dissipation module 551 and the extraction heat dissipation module 552 to assist the higher power light-emitting element group 54 to dissipate a large amount of heat energy during the illumination, thereby reducing the illumination of the light-emitting element group 54 due to long-time illumination. In an excessively high temperature state, the luminous efficiency Φ decreases as the number of use hours increases; more convenient for the maintenance and replacement of the entire light source module assembly', the light-emitting element group 54 can be connected to the removable heat-dissipating module 552 is fixed to the support frame 55 in a simple assembly manner. The light curtain panel 5 is configured such that the light energy excited by the light-emitting element group 54 can be easily penetrated into the interior of the transparent high-resolution plate member 51. The light-incident light-input portion can be designed to be an arc-convex light-injecting portion 511. Or a cone-shaped convex portion 512; the transparent high-refractive-plate member 51 is adjacent to the side end of the indoor region (B), and can be covered with a light-shielding reflective layer® 53, and the light-shielding reflective layer 53 effectively isolates the outdoor region (a) Excessive strong sunlight is injected into the indoor zone (B), and the local light is allowed to pass through according to the setting of the light transmittance, and the transparent high-refractive plate 51 which has been irradiated by the incident light is originally intended to be worn out. The incident light to the indoor zone (B) is reflected back to the inside of the transparent high-folding plate member 51, and the transparent high-gloss plate member 51 is bonded to the transparent glass-bonding layer 52 having a reinforcing effect. Please refer to the sixth figure, which is a schematic diagram of a CCJ?L cold cathode tube of the light-emitting component group of the present invention; wherein the light curtain panel 6 is provided with a CCFL cold cathode
I 201033449 極管64因生產之技術品質與發光效率成熟度極佳,可大幅 降低購置安裝之成本;而透明高折光板件61侧端位置設有 光線入射最佳角度之凹槽入光部612或凸體入光部611以 利不同光源配置之最佳入射方式;另於該透明高折光板件 61兩侧面貼合有透明玻璃膠合層62,且於靠近室内區(B) 之該透明玻璃膠合層62表面被覆有遮光反射層63,據此 該遮光反射層63有效隔離室外區(A)之強烈陽光全數射入 ❹ 室内區(B);又支撑框架67為防止漏光與滲水,特於與該 透明高折光板件61之侧面固定處設有阻光阻水層69,該 阻光阻水層69設置可免該CCFL冷陰極管64、LEDCLED 光源在此未繪出)受潮溼與污垢以及防止光能外洩,並為 使該CCFL冷陰極管64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66,以促使光 源之可完全射入透明高折光板件61 ;且為讓該光幕板6具 ⑩ 多重顏色之演換,可換裝置CCFL冷陰極管組65,據複數 顏色燈管之混光作用而演換出無數繽紛色彩;以複合層堆 鲞之該光幕板6可充分利用其夾層與夾層間另施以顏色層 68,並可以多層次異層互搭組合結構方式形成圖案,於該 透明高折光板件61未射入光線時,因該透明高折光板件 61保有原始之透明狀態,致可全透視而將外顏色層681、 中顏色層682、内顏色層683依序組合成一完整之圖案, 但當一有光線射入該透明高折光板件61,高亮度之明亮光 12 201033449 霧牆便阻隔視覺之穿透性,致使内顏色層683被隔離於視 線之另一端而產生圖案部分隱藏效果。 •請參閲第七阖所示,係為本發明之發光元件以L丑d 及雷射光源具體實施示意囷;其中,光幕板7之透明高折 光板件70具有凹槽入光部71,設於支樓框架74之l E: D 光源72恰可置入凹槽入光部71,且L E D光源72之光能 可藉凹槽入光部71以大角度射入該透明高折光板件7〇。 ❿ 該光幕板7之表面另可實施有微結構層701,藉此微結構 層701之設置,可於該光幕板7表面製作出圖案(圖案在 此未繪出),期以此滿足該光幕板7能製造出各式造塑;又 為讓該光幕板7之使用功能更廣泛,另於該透明高折光板 件70之支撐框架74適當位置裝設有雷射光源並可於 透明高折光板件70周圍除凹槽入光部71與雷射光源73 以外之處另加被覆全反射層731,藉雷射光束732之集中 ❿照射以及該全反射層731之加強反射再而重覆反射作用, 可於該透明高折光板件70板内製作出光束圖案組合。 請參閱第八圖所示,係為本發明之明鏡具體實施示意 .圖;其中,明鏡光幕板8之透明高折光板件81於一側面 被覆有全反射層83,相對之另一侧面則貼合單一面透明玻 璃膠合層82並於該側形成照鏡區(A),據此結構已達成傳 統式明鏡之基本架構;為使明鏡光幕板8之應用範圍更為 廣泛、多重化,可於上述結構之侧端部設置有提供光源用 13 201033449 以照射該透明高折光板件81之發光元件組84(光源可為 R、G、B 之 LED 或 CCFL ’ R、G、B 之 LED 或 CCFL 此處未繪 出),並於支撑框架85設置有阻光阻水層851,該阻光阻 水層851之設置可免該發光元件組84受潮溼與污垢之侵 入,以及防止光能由縫隙外洩,且於該支撐框架85又裝設 有感知偵測器86用以偵測周遭光能量之強弱及使用者靠 近之距離長短,將偵測到之資訊輸入電路控制模組87,經 ❹ 設定之參數判斷後再由該電路控制模組87依預定之模式 提供電能予該發光元件組84啟閉運作與r、g、Β之調控; 以此機構之設計可讓明鏡光幕板8於一般狀況下為正常之 明鏡狀態,當環境光通量降低至一定程度時,該感知偵測 器86將測得之參數輸入該電路控制模組87,進而啟動電 能供應機制以使該發光元件組84發射光能照射該透明高 折光板件81 ’此機制之運作令該明鏡光幕板8變為氣氛裝 ❹飾照明之用途;又當有使用者靠近該明鏡光幕板8,該感 知偵測器86將測得之參數輸入該電路控制模組87,進而 關閉電能供應機制,以使該明鏡光幕板8恢復成正常之明 • 鏡狀態;且當處於可全透視狀態下,其顏色層88之外、中、 内顏色層881、882、883,可依序組合成一完整之圖案, 當有光線射入該明鏡光幕板8 ’高亮度之光霧牆,阻隔視 覺穿透’致内顏色層883被隔離於視線另一端而產生圖案 部分隱藏,外顏色層881與中顏色層882並因此產生混光 201033449 而改變其原本之色彩。 _參閱第九圖所示,係為本發明之再—具體實施示意 圖,其中’光幕板9由透明高折光板件91貼合透明玻璃 膠合層92 ’再以支撐框架94固接安裝,並用以裝置發光 το件組93,該發光元件組93所激發之光線經由該透明高 折光板件91傳導、折射、散射,再由兩侧之該透明玻璃膠 合層92向外穿透射出;受該發光元件組93光線所照射之 ❹該透明高折光板件91產生一道高亮度之明亮光霧牆,已具 高亮度顯示發光之特性,可於該制破璃膠合層 92之外表 層被覆有可輕易更換之不透光性、可透光性、透明性之外 顏色層951底顏色層954,及可於該透明玻璃膠合層92 與該透明回折光板件91之間,被覆有不透光性、可透光 性、透明性之中顏色層952、内顏色層953,藉由具顏色 廣95之文字或圖案再搭配以該透明高折光板件91可明亮 參光麟⑽L,㈣令該透明高折光板件91兩側產 生組合或分離之特效;又可因該發光元件組93變化色彩而 令該透明间折光板件91也隨之改變顏色,並與相同顏色之 文子或圖案產生隱藏作用而使其假性消失,更可與透明之 顏色層95產生混光調合之作用因而改變文字或圖案的顏 色’並可將室内區⑻與室外區(A)隨時作n隔及視覺遮蔽 效果。 唄參閱第十圖所示,係為本發明之又一具體實施示意 201033449 圖;其中,光幕板10由透明高折光板件101兩侧面貼合 透明玻璃膠合層102 ’又於觀看區(A)相對另一侧面之該透 明玻璃膠合層102被覆有遮光反射層104,並以發光元件 組103提供光線之來源;光影造景已漸被運用於大型建築 物夜間藝術表現之重要元素,尤以玻璃帷幕牆更具明顯之 標的物,據此需求可於該透明玻璃膠合層102之外兩侧被 覆有透明性之外顏色層105與底顏色層108,也於該透明 φ 高折光板件101兩侧面被覆有透明性之中顏色層106與内 顏色層107’當該發光元件組103向該透明高折光板件ιοί 射入強弱不等能量之光線,該透明高折光板件1〇1則呈現 不同程度之視覺遮蔽效果,而令内顏色層107與底顏色層 108出現若隱若現之接龍式圖型重組;若欲使各顏色層依 排列次序暫時隱匿,可令該發光元件組103依各顏色層之 排列次序轉換光源之色彩,當光源之色彩與個別顏色層相 參 同時’其個別相同顏色層便被掩蓋,剩餘之個別顏色層也 因光源色彩之混光效果而產生色彩演變。 據上,本發明之主要優點在於:光幕板(二)之透明高 折光板件,可據發光元件組所發出之光線照射内部的光擴 散微粒子,利用該光擴散微粒子對光線反射、折射、散射, 令原極為透明之該透明高折光板件轉換成具光亮化之光霧 化形態,據此光霧化形態加以因遮光反射層之透光率、反 射率多寡,而有兩侧面呈高光亮對比及不同程度的視覺隔 201033449 離功能,又該透明高折光板件内部之光通量遠高於兩侧, 據此可實施為視覺隔離使用,俾以該透明高折光板件之光 亮化與光霧化形態轉變,有效摒除習知視線穿透之缺失, 啟動或未啟動 而成為本發明 由此形態轉變,更令本發明於發光元件組_ 之情況下’依然具透光性、防窺視之效益, 之主要優益處。 .综上所述,當知本案所發明之新穎結構已具有 用性、新穎性與進步性,誠符合發明專利要件。惟r 建者,僅為本發明之—錄實施卿已,_ ,實施之範圍。即凡依本發明中請專利範圍所做的= 化與修飾,皆為本發明專利範圍所涵蓋。 _I 201033449 The pole tube 64 has excellent maturity of the technical quality and luminous efficiency of the production, and can greatly reduce the cost of the installation and installation; and the side of the transparent high-refractive-plate member 61 is provided with the groove entrance portion 612 where the light is incident at the optimum angle. Or the convex light-injecting portion 611 to facilitate the optimal incident mode of different light source configurations; and the transparent high-gloss plate member 61 has a transparent glass bonding layer 62 on both sides thereof, and the transparent glass is close to the indoor region (B) The surface of the glue layer 62 is covered with a light-shielding reflective layer 63, whereby the light-shielding reflective layer 63 effectively isolates the strong sunlight from the outdoor area (A) into the indoor area (B); and the support frame 67 prevents light leakage and water seepage. A light blocking and water blocking layer 69 is disposed at a side of the transparent high refractive index member 61. The light blocking and water blocking layer 69 is disposed to prevent the CCFL cold cathode tube 64 and the LED CLED light source from being drawn by moisture and dirt. And preventing the light energy from leaking out, and in order to make the light energy of the CCFL cold cathode tube 64 be fully utilized, and collecting the light collecting plate 66 at the other end surface of the light entering portion to promote the light source Can be completely injected into the transparent high-refractive plate member 61; In order to make the light curtain panel 6 have 10 multiple colors, the replaceable device CCFL cold cathode tube set 65 can be converted into numerous colorful colors according to the light mixing effect of the plurality of color lamps; The curtain plate 6 can fully utilize the color layer 68 between the interlayer and the interlayer, and can form a pattern by multi-layer and different layers, and when the transparent high-refractive plate member 61 does not enter the light, the transparent plate is high. The refractive plate member 61 retains the original transparent state, so that the outer color layer 681, the middle color layer 682, and the inner color layer 683 are sequentially combined into a complete pattern, but when a light is incident on the transparent high refractive index plate Item 61, High Brightness Bright Light 12 201033449 The fog wall blocks the visual penetration, causing the inner color layer 683 to be isolated from the other end of the line of sight to create a partially hidden effect. Please refer to the seventh embodiment, which is a schematic diagram of the light-emitting element of the present invention, and the transparent high-light-reinforcing plate member 70 of the light curtain panel 7 has a concave light-injecting portion 71. The E: D light source 72 disposed in the frame 74 of the branch can be placed into the recessed light entering portion 71, and the light energy of the LED light source 72 can be incident on the transparent high refractive index at a large angle by the recessed light entering portion 71. Item 7〇. The surface of the light curtain panel 7 may be further provided with a microstructure layer 701, whereby the microstructure layer 701 is disposed, and a pattern can be formed on the surface of the light curtain panel 7 (the pattern is not drawn here). The light curtain panel 7 can be manufactured into various shapes; in addition, the light curtain panel 7 can be used more widely, and a laser light source can be installed at a suitable position of the support frame 74 of the transparent high-refractive plate member 70. A total reflection layer 731 is additionally applied around the transparent high-refractive-plate member 70 except for the recessed light incident portion 71 and the laser light source 73, and the concentrated reflection layer 731 is irradiated by the laser beam 732 and the total reflection layer 731 is reinforced. By repeating the reflection, a beam pattern combination can be formed in the transparent high-refractive plate member 70. Referring to the eighth embodiment, it is a detailed embodiment of the mirror of the present invention. The transparent high-refraction plate member 81 of the mirror light curtain panel 8 is covered with a total reflection layer 83 on one side, and the other side is opposite to the other side. The single-sided transparent glass bonding layer 82 is adhered to form a mirror area (A) on the side, and the basic structure of the conventional mirror is achieved according to the structure; in order to make the application scope of the mirror light curtain board 8 wider and more multiplexed, At the side end portion of the above structure, a light-emitting element group 84 for providing the light source 13 201033449 to illuminate the transparent high-refractive-index plate 81 (LEDs of the light source R, G, B or CCFL 'R, G, B) may be disposed. Or the CCFL is not shown here, and the support frame 85 is provided with a light blocking and water blocking layer 851. The light blocking and water blocking layer 851 is disposed to prevent the light emitting element group 84 from being invaded by moisture and dirt, and to prevent light energy. The information is input to the circuit control module 87, and the sensing frame 86 is further provided with a sensing detector 86 for detecting the intensity of the ambient light energy and the distance between the user and the user. After the parameters set by ❹ are judged, the circuit is controlled. The module 87 provides power according to a predetermined mode to the opening and closing operation of the light-emitting element group 84 and the regulation of r, g, and ;; the mechanism of the mechanism allows the mirror light curtain panel 8 to be in a normal mirror state under normal conditions. When the ambient light flux is reduced to a certain extent, the sensing detector 86 inputs the measured parameters into the circuit control module 87, thereby starting the power supply mechanism to enable the light emitting component group 84 to emit light energy to illuminate the transparent high refractive index plate. 81 'The operation of the mechanism causes the mirror light curtain panel 8 to be used for atmosphere decoration lighting; and when a user approaches the mirror light curtain panel 8, the sensing detector 86 inputs the measured parameters into the circuit. The control module 87, in turn, turns off the power supply mechanism to restore the mirror light curtain panel 8 to a normal mirror state; and when in the full perspective state, the color layer 88 has a color layer 88, a middle layer, and an inner color layer 881. 882, 883, can be combined into a complete pattern in sequence, when light is incident on the mirror light panel 8 'high brightness of the light fog wall, blocking the visual penetration 'to the inner color layer 883 is isolated at the other end of the line of sight Produce a pattern part Tibetan, the color layer 881 and outer layer 882 and the color thus producing mixed light of the original 201 033 449 changes its color. Referring to the ninth embodiment, it is a re-implementation of the present invention, in which the 'light curtain panel 9 is adhered to the transparent glass bonding layer 92' by the transparent high refractive index member 91 and then fixedly mounted by the support frame 94, and used The light emitted by the light-emitting element group 93 is conducted, refracted, scattered by the transparent high-refractive-plate member 91, and then transmitted through the transparent glass bonding layer 92 on both sides; The light-emitting element group 93 is irradiated with light. The transparent high-refractive-plate member 91 produces a high-brightness bright haze wall, which has the characteristics of high-brightness display and can be covered on the surface of the glass-bonded layer 92. The opaque, opaque, and transparent color layer 951 bottom color layer 954 can be easily replaced, and the transparent glass bonding layer 92 and the transparent retroreflective sheet member 91 can be covered with opacity. The light-transmissive and transparent color layer 952 and the inner color layer 953 can be brightly glazed by a transparent color plate member 91 by a text or pattern having a wide color of 95. (4) The transparency is made. High refractive plate member 91 produces a combination on both sides The special effect of the separation; the color of the light-emitting element group 93 can change the color, so that the transparent-to-refractive-plate member 91 also changes color, and has a hidden effect with the text or pattern of the same color to make it falsely disappear, and more The transparent color layer 95 produces the effect of mixing and blending, thereby changing the color of the text or pattern, and the indoor area (8) and the outdoor area (A) can be separated from each other and visually shielded. Referring to FIG. 10, it is a further embodiment of the present invention, which is shown in FIG. 201033449; wherein the light curtain panel 10 is adhered to the transparent glass bonding layer 102 from both sides of the transparent high-refractive plate member 101 and is also in the viewing area (A). The transparent glass bonding layer 102 is coated with the light-shielding reflective layer 104 on the opposite side, and provides the light source by the light-emitting element group 103; the light and shadow landscaping has been gradually applied to the important elements of the nighttime artistic performance of large buildings, especially The glass curtain wall is a more obvious object. According to the requirement, the outer surface of the transparent glass bonding layer 102 can be covered with a transparent color layer 105 and a bottom color layer 108, and the transparent φ high refractive plate member 101 is also used. The two sides are covered with a transparent color layer 106 and an inner color layer 107'. When the light emitting element group 103 is incident on the transparent high-refractive-plate member ιοί, the light is unequal energy, and the transparent high-refractive plate member 1〇1 is Presenting different degrees of visual obscuration, and causing the inner color layer 107 and the bottom color layer 108 to appear looming Solitaire pattern recombination; if the color layers are to be temporarily hidden in the order of arrangement, the illuminating element can be made The group 103 converts the color of the light source according to the arrangement order of the color layers. When the color of the light source is in phase with the individual color layers, the individual color layers are masked, and the remaining individual color layers are also generated by the light mixing effect of the light source colors. Color evolution. According to the above, the main advantage of the present invention is that the transparent high-refractive plate member of the light curtain plate (2) can illuminate the internal light-diffusing particles according to the light emitted by the light-emitting element group, and the light-diffusing particles can be used to reflect and refract light. Scattering, transforming the transparent high-refractive plate member that is originally transparent into a light-attenuated light-amorphizing form, according to which the light-atomized shape is high in light transmittance and reflectance due to the light-shielding reflective layer, and the two sides are high Bright contrast and different degrees of visual separation 201033449 From the function, the light flux inside the transparent high-refractive plate is much higher than the two sides, which can be implemented as visual isolation, and the light and light of the transparent high-refractive plate The atomization morphological transformation effectively eliminates the lack of conventional line-of-sight penetration, and the morphological transformation of the present invention is initiated or not, and the invention is still transparent and peek-proof in the case of the illuminating element group _ Benefits, the main benefits. In summary, when it comes to knowing that the novel structure invented in this case has been useful, novel and progressive, it is in line with the requirements of the invention patent. However, the construction of the invention is only the scope of the invention. That is, all the modifications and modifications made in accordance with the scope of the patent in the present invention are covered by the scope of the invention. _
17 201033449 【圖式簡單說明】 第一圖:係為習用之採光用覆層膠合安全玻璃窗實施示意圖。 第二圖:係為習用之玻璃簾幕實施示意圖。 第三圖:係為本發明之第一實施組合示意圖。 第四圖:係為本發明之第二實施組合示意圖。 第五圖:係為本發明之發光元件以L E D光源實施示意圖。 第六圖:係為本發明之發光元件以C C F L冷陰極管實施 I 示意圖。 第七圖··係為本發明之發光元件以LED及雷射光源具體 實施示意圖。 第八圖:係為本發明之明鏡具體實施示意圖。 第九圖:係為本發明之再一具體實施示意圖。 第十圖:係為本發明之又一具體實施示意圖。 【主要元件符號說明】 〔習用〕 1.. ..複層膠合玻璃 12.. ..膠合層 14.. ..支撐框架 室内區 2....採光牆 21.. ..隔熱反光膜 11—強化玻璃層 13.. ..遮光反射層 (A)....室外區 20.. ..透明玻璃 22.. ..活動式簾幕 18 201033449 221....葉片 222....轉向索 23....固定支架 (B)....隱私區 〔本發明〕 (A)....開放區 3....光幕板 31....透明高折光板件 311....光擴散微粒子 32....透明玻璃膠合層 321....膠合層 33....發光元件 Q 34....支撐框架 35____感知4貞測器 36....電路控制模組 B____室内區 A....室外區 4....光幕板 41....透明高折光板件 411....光擴散微粒子 412____錐凹槽入光部 413....弧凹槽入光部 42....透明清玻璃膠合層 © 43....透明暗玻璃膠合層 44____發光元件組 45....支樓框架 46....散熱支撐框架 A____室外區 B____室内區 5....光幕板 51....透明高折光板件 511....弧凸體入光部 512....錐凸體入光部 52....透明玻璃膠合層 53____遮光反射層 54____發光元件組 55____支撑框架 201033449 551—散熱模組 552____抽換式散熱模組 A____室外區 B....室内區 6....光幕板 61....透明高折光板件 611....凸體入光部 612....凹槽入光部 62....透明玻璃膠合層 63____遮光反射層 64....CCFL冷陰極管 65....CCFL冷陰極管組 φ 66—集光板 67—支撑框架 68....顏色層 681....外顏色層 682....中顏色層 683....内顏色層 69....阻光阻水層 B....室内區 A____室外區 7....光幕鏡 70....透明高折光板件 © 701....微結構層 71....凹槽入光部 72.... L E D光源 73....雷射光源 _ 731....全反射層 74....支撐框架 732....雷射光束 8....明鏡光幕板 81....透明高折光板件 82....透明玻璃膠合層 83....全反射層 84....發光元件組 85____支撐框架 201033449 851....阻光阻水層 86....感知偵測器 87....電路控制模組 88....顏色層 881....外顏色層 882....中顏色層 883....内顏色層 A....照鏡區 9....光幕板 91....透明高折光板件 92....透明玻璃膠合層 93....發光元件組 _ 94....支撑框架 95....顏色層 951____外顏色層 952____中顏色層 953____内顏色層 954....底顏色層 A____室外區 B....室内區 10....光幕板 101....透明高折光板件 102....玻璃膠合層 103....發光源組件 Φ 104....遮光反射層 105....外顏色層 106....中顏色層 107....内顏色層 108....底顏色層 A____觀看區 2117 201033449 [Simple description of the diagram] The first picture: is a schematic diagram of the implementation of the coated veneer safety glass window for lighting. The second picture is a schematic diagram of the implementation of the conventional glass curtain. The third figure is a schematic diagram of the first embodiment of the present invention. The fourth figure is a schematic diagram of the second embodiment of the present invention. Fig. 5 is a schematic view showing the implementation of the light-emitting element of the present invention with an L E D light source. Fig. 6 is a schematic view showing the implementation of the light-emitting element of the present invention as a C C F L cold cathode tube. Fig. 7 is a schematic view showing the specific implementation of the LED and the laser light source of the light-emitting element of the present invention. The eighth figure is a schematic diagram of the specific implementation of the mirror of the present invention. Figure 9 is a schematic view of still another embodiment of the present invention. Figure 10 is a schematic view of still another embodiment of the present invention. [Main component symbol description] [Use] 1.. .. Multi-layer glued glass 12... Gluing layer 14... Support frame indoor area 2....Lighting wall 21... Insulation reflective film 11—Strengthening glass layer 13... shading reflective layer (A)....Outdoor area 20.....transparent glass 22...active curtain 18 201033449 221....blade 222... Steering cable 23....fixing bracket (B)....privacy zone [invention] (A)....opening zone 3....light curtain panel 31....transparent high refractive panel 311....light diffusing fine particles 32....clear glass bonding layer 321....glue layer 33....light emitting element Q 34....support frame 35____perception 4 detector 36... Circuit control module B____ indoor zone A....outdoor zone 4....light curtain board 41....transparent high-refractive plate member 411....light diffusing microparticles 412____cone groove into the light section 413....arc groove into the light part 42....transparent clear glass glue layer © 43.... transparent dark glass glue layer 44____ light element group 45.... branch frame 46.... Heat dissipation support frame A____ outdoor zone B____ indoor zone 5....light curtain plate 51....transparent high-refraction plate member 511....arc convex body light-in part 512....conical convex light Department 52... Transparent glass glue layer 53____ light-shielding reflective layer 54____ light-emitting element group 55____ support frame 201033449 551—heat-dissipation module 552____ exchange-type heat-dissipation module A____ outdoor area B.... indoor area 6....light Curtain board 61....transparent high-refractive-plate part 611.... convex body light-in part 612....groove light-in part 62....clear glass glue layer 63____ shading reflection layer 64... .CCFL cold cathode tube 65....CCFL cold cathode tube group φ 66 - light collecting plate 67 - supporting frame 68.... color layer 681.... outer color layer 682.... color layer 683.. .. Inner color layer 69.... Light blocking water layer B.... Indoor area A____ Outdoor area 7.... Light curtain mirror 70.... Transparent high refractive plate © 701.... The microstructure layer 71....the groove into the light portion 72....the LED light source 73....the laser light source_731....the total reflection layer 74....the support frame 732....lei Light beam 8.... Mirror light curtain plate 81.... Transparent high refractive plate member 82.... Transparent glass glue layer 83.... Total reflection layer 84.... Light-emitting element group 85____ support frame 201033449 851....blocking light blocking layer 86....sensing detector 87....circuit control module 88....color layer 881....outer color layer 882.... Yan Layer 883....in the color layer A....lighting area 9....light curtain board 91....transparent high refractive plate piece 92....clear glass glue layer 93....lighting Component group _ 94....support frame 95....color layer 951____ outer color layer 952____ color layer 953____ inner color layer 954.... bottom color layer A____ outdoor area B....indoor Zone 10....light curtain plate 101....transparent high-refractive plate member 102..glass glue layer 103....light source assembly Φ 104....light-shielding reflective layer 105.... The color layer 106....the color layer 107....the inner color layer 108....the bottom color layer A____ viewing area 21