201203586 34215twf.doc/n 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種太陽能電池的製造方法,且特別 是有關於一種應用於建築牆面(build facade)的發光型太陽 能電池的發光模組的製造方法。 【先前技術】 建築物(Building)是指固定於地面,具有支承及遮蓋用 途的構造物,人類藉著興建各種建築群,提供社會運作的 空間或機能需求。換句話說,建築物一般都具備人能居住 和活動的空間。 一般而言’每楝建築物至少會有一個出入口,以門或 通道的方式出現。一楝建築物可以有一個或數個窗戶,亦 可能一個窗戶也沒有。通常建築物的建造須著重的有建築 物内部設計與建築物的外觀’且隨著人們對於節能減碳的 環保意識日漸抬頭,建築與太陽能電池的結合也已經成為 研究重點之一,如建築整合型太陽光電系統(Building201203586 34215twf.doc/n VI. Description of the Invention: [Technical Field] The present invention relates to a method of manufacturing a solar cell, and more particularly to an illuminating solar cell applied to a building facade A method of manufacturing a light-emitting module. [Prior Art] Building refers to a structure that is fixed to the ground and has support and cover. Humans provide space or functional requirements for social operations by constructing various buildings. In other words, buildings generally have spaces where people can live and move. In general, there is at least one entrance and exit for each building, which appears as a door or passage. A building can have one or several windows, or a window. Usually the construction of buildings must focus on the interior design of the building and the appearance of the building. And as people's environmental awareness of energy saving and carbon reduction rises, the combination of building and solar cells has become one of the research priorities, such as building integration. Solar photovoltaic system (Building
Integrated Photovoltaics,BIPV) 〇 &建築整合型太陽光電系統是開發具有建材功能之太陽 能電池板’然後以建築設計手法將太陽光電模板建材導入 建築物本體。近年來’業界已開發可依使用者要求,生產 具有不同陽光穿透率的太陽光電模板玻璃作為窗戶,而能 同時發電與遮陽。 201203586 34^XMWl.d〇c/n 【發明内容】 本發明提供一種應用於建築牆面(build facade)的發光 型太陽能電池的發光模組的製造方法,可簡單地製作出使 光源自太陽能電池板均勻發光之模組。 本發明提出一種應用於建築牆面的發光型太陽能電 池的發光模組的製造方法,包括製作多個太陽能電池板。 然後,在每一太陽能電池板的正面塗佈一層聚合物膠體 (polymer gel),再進行烘烤,而於每一太陽能電池板的正 面形成多個凸起部。之後’在每—太陽能電池板的侧面安 裝LED光源,經由上述凸起部能使lED光源發出的光能 自每一太陽能電池板的正面均勻發光。 在本發明之一實施例中,上述太陽能電池板包括透明 或不透明太陽能電池板。 在本發明之一實施例中,上述LED光源包括由數個 LED發光二極體組成之條狀結構。 在本發明之一實施例中,上述建築物包括住宅、辦公 大樓、學校、商店或體育館。 基於上述’本發明能製作用於建築牆面上的可發光太 陽能電池板,並搭配可均勻發光的模組設計,故可達成建 築整合型太陽光電系統(BIPV)’或根據需求設計而達成建 築设计型太陽光電系統(Building Designed Photovoltaics, BDPV) 〇 為讓本發明之上述特徵和優點能更明顯易懂,下文特 舉實施例,並配合所附圖式作詳細說明如下。 201203586 342l5twf.doc/n 【實施方式】 圖1A至圖ID是依照本發明之一實施例之一種應用 於建築牆面(build facade)的發光型太陽能電池的發光模組 的製作流程示意圖。 請參照圖1A,製作太陽能電池板100,雖然圖中只顯 示單一個太陽能電池板100,但是實際上需製作多個太陽 能電池板100。其中,太陽能電池板100包括透明或不透 B 明太陽能電池板,而太陽能電池板100 —般包括多個太陽 能電池102。 然後,請參照圖1B,在太陽能電池板100的正面i〇〇a 塗佈一層聚合物膠體104。聚合物膠體104例如太陽能電 池板100之封裝原料或是其他適合的聚合物材料。 接著,請參照圖1C,進行烘烤,使太陽能電池板1〇〇 的正面100a形成多個凸起部106。此處的烘烤步驟主要是 移除聚合物膠體104中的溶劑,同時使聚合物膠體104凝 聚成一個個的凸起部106 » • 最後,請參照圖1D,將LED光源108安裝在每一太 陽能電池板100的側面100b。LED光源108包括由數個 LED發光二極體110組成之條狀結構,因此要更換LED 發光二極體110或者整個LED光源108時,只需從太陽能 電池板100外進行更換,故本發明具有維修便利的優點。Integrated Photovoltaics, BIPV) 〇 &Building Integrated Solar Photovoltaic System is the development of solar panels with building materials function. Then the solar photovoltaic formwork building materials are introduced into the building body by architectural design. In recent years, the industry has developed solar photovoltaic formwork glass with different solar transmittance as a window, which can simultaneously generate electricity and shade. 201203586 34^XMWl.d〇c/n SUMMARY OF THE INVENTION The present invention provides a method for manufacturing a light-emitting module of an illuminating solar cell applied to a building facade, which can be simply fabricated to make a light source from a solar cell. The module is evenly illuminated. The invention provides a method for manufacturing a light-emitting module of an illuminating solar cell applied to a building wall surface, comprising making a plurality of solar panels. Then, a polymer gel is applied to the front surface of each solar cell panel, and then baked, and a plurality of convex portions are formed on the front surface of each solar cell panel. Thereafter, an LED light source is mounted on each side of the solar panel, and light emitted from the lED source can be uniformly illuminated from the front surface of each solar panel via the above-mentioned convex portion. In an embodiment of the invention, the solar panel comprises a transparent or opaque solar panel. In an embodiment of the invention, the LED light source comprises a strip structure composed of a plurality of LED light emitting diodes. In an embodiment of the invention, the building comprises a house, an office building, a school, a store or a gym. Based on the above-mentioned 'the invention can be used to fabricate illuminable solar panels on the wall of a building, and with a module design capable of uniform illumination, it is possible to achieve a building integrated solar photovoltaic system (BIPV)' or to design according to the requirements. Build Designed Photovoltaics (BDPV) The above features and advantages of the present invention will become more apparent from the following description. 201203586 342l5twf.doc/n [Embodiment] FIG. 1A to FIG. 1D are schematic diagrams showing a manufacturing process of a light-emitting module of an illuminating solar cell applied to a building facade according to an embodiment of the present invention. Referring to Fig. 1A, a solar panel 100 is fabricated. Although only a single solar panel 100 is shown, a plurality of solar panels 100 are actually required to be fabricated. Among them, the solar panel 100 includes a transparent or opaque solar panel, and the solar panel 100 generally includes a plurality of solar cells 102. Then, referring to FIG. 1B, a layer of polymer colloid 104 is coated on the front surface i〇〇a of the solar panel 100. The polymer colloid 104 is, for example, a packaging material for the solar cell panel 100 or other suitable polymeric material. Next, referring to Fig. 1C, baking is performed to form a plurality of convex portions 106 on the front surface 100a of the solar cell panel 1A. The baking step here is mainly to remove the solvent in the polymer colloid 104 while aggregating the polymer colloid 104 into individual protrusions 106 » • Finally, referring to FIG. 1D, the LED light source 108 is installed in each The side 100b of the solar panel 100. The LED light source 108 includes a strip structure composed of a plurality of LED light emitting diodes 110. Therefore, when the LED light emitting diode 110 or the entire LED light source 108 is to be replaced, only the solar panel 100 is replaced, so the present invention has The advantage of convenient maintenance.
經由太陽能電池板100的正面l〇〇a的凸起部106能使 LED光源108發出的光能自每一太陽能電池板1〇〇的正面 100a均勻發光,如圖2。這種由太陽能電池板100與LED 201203586』 光源108組成之發光型太陽能電池特別適用在夜間發光。 圖3是圖1D之發光型太陽能電池應用於建築牆面 (build facade)的示意圖。 請參照圖3,本文中的「建築牆面」是指建築物3〇〇 除窗戶302與出入口 304以外的牆面306。至於具有圖id 的發光模組的太陽能電池板1〇〇可鋪設在建築物的牆 面306上,其中建築物300例如住宅、辦公大樓、學校、 商店、體育館等。 綜上所述,本發明能製作用於建築牆面上的可發光太 陽能電池板,並搭配可均勻發光的模組設計,因此可製作 同時具備發電與均勻發光之太陽能電池板,而用於建築整 合型太陽光電系統(BIPV),還能配合牆面做設計用於建築 設計型太陽光電系統(BDPV),或搭配太陽能電板與牆面^ 的紋路或圖形而用於建築配合型太陽光電系統(ΒΑρν)。 雖然本發明已以實施例揭露如上,然其並非用以限定 本發明,任何所屬技術領域中具有通常知識者,在不脫離 本發明之精神和範圍内,當可作些許之更動與潤飾,故本 發明之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1A至圖1D是依照本發明之一實施例之一種應用 於建築牆面的發光型太陽能電池的發光模組的製作产 意圖。 机/、 圖2是圖1D的局部剖面圖。 201203586 j42iDtwf.doc/n 圖3是圖ID之發光型太陽能電池應用於建築牆面的 示意圖。 【主要元件符號說明】 100:太陽能電池板 100a :正面 100b :側面 102 :太陽能電池 ® 104 :聚合物膠體 106 :凸起部 108 : LED 光源 110 : LED發光二極體 300 :建築物 302 :窗戶 304 :出入口 306 :牆面The light 106 emitted from the LED light source 108 can be uniformly illuminated from the front surface 100a of each solar panel 1 through the raised portion 106 of the front surface 10a of the solar panel 100, as shown in FIG. Such an illuminating solar cell composed of a solar panel 100 and an LED 201203586 light source 108 is particularly suitable for illuminating at night. Fig. 3 is a schematic view showing the application of the light-emitting solar cell of Fig. 1D to a building facade. Referring to Figure 3, "construction wall" herein refers to a wall 306 of a building 3 other than a window 302 and an entrance 304. As for the solar panel 1 having the light-emitting module of Fig. id, it can be laid on the wall 306 of the building, such as a house, an office building, a school, a store, a gym, and the like. In summary, the present invention can be used to fabricate illuminable solar panels on a building wall surface, and is designed with a module that can uniformly emit light, thereby making a solar panel with simultaneous power generation and uniform illumination, and used for construction. Integrated Solar Photovoltaic System (BIPV) can also be used in conjunction with wall surfaces for architecturally designed solar photovoltaic systems (BDPV), or with solar panels and wall patterns or patterns for architecturally compatible solar photovoltaic systems. (ΒΑρν). Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A to FIG. 1D are views showing the production of a light-emitting module of an illuminating solar cell applied to a building wall according to an embodiment of the present invention. Figure 2 is a partial cross-sectional view of Figure 1D. 201203586 j42iDtwf.doc/n Figure 3 is a schematic diagram of the light-emitting solar cell of Figure ID applied to a building wall. [Main component symbol description] 100: Solar panel 100a: Front side 100b: Side 102: Solar cell® 104: Polymer colloid 106: Raised portion 108: LED Light source 110: LED light-emitting diode 300: Building 302: Window 304: entrance 306: wall