M409383 五、新型說明: 【新型所屬之技術領域】 且特別是有關於一種底部 本創作是有關於一種太陽能電池裝置, 外加發光模組的透明發光發電牆。 【先前技術】M409383 V. New description: [New technical field] and especially related to a kind of bottom This creation is about a solar cell device, plus a transparent luminous power generation wall with a light-emitting module. [Prior Art]
出現。一楝建築物可以有一個或數個窗戶, 入口,以門或通道的方式 ’亦可能一個窗戶也沒有。appear. A building can have one or several windows, entrances, either by doors or passages. It is also possible that a window does not.
Integrated Photovoltaics,BIPV)。 通常建築物猶造騰重的有建絲畴設計與建祕的外觀,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-,如建築整合型场光電系統(Β_丨% 建築整合型太陽光電彡統是開發具有建材舰之太陽能電池板, 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。 【新型内容】 本創作提供一種底部外加發光模組的透明發光發電牆(buHd facade) ’可使光源自太陽能電池板均勻發光並且維修方便。 本創作提出一種底部外加發光模組的透明發光發電牆,包括多個 透明太陽能電池板以及設置於每一太陽能電池板底下的一發光模組, 其中太陽能電池板設置於一建築物的多個牆面上。而上述發光模組包 括一導光板和設置在導光板的側面的LED光源,以使LED光源發出 的光經由導光板的正面均勻發射至太陽能電池板,再自每一太陽能電 M4Q9383 池板的正面發光。 在本創作之-實施例中’上述透明太陽能電池板包括多個透明太 陽能電池。 在本創作之一實施例中,上述凸起部構成一陣列圖案。 在本創作之-實施例中,上述導光板的正面具有凸起或凹痕。 在本創作之一實施例中,上述LED光源包括由數個|_ed發光二 極體組成之條狀結構。 在本創作之一實施例中,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,本創作在建築牆面上使用透明太陽能電池板,並搭配 外加在太%能電池板底下之發光模組,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設計型太陽光電系統 (Building Designed Photovoltaics,BDPV);甚至是能搭配牆面本身的 紋路或圖形而達成建築配合型太陽光電系統(Buj丨djng AdaptjveIntegrated Photovoltaics, BIPV). Usually, buildings are built with the appearance of built-in domain design and secrets. With the increasing awareness of environmental protection for energy saving and carbon reduction, the combination of architecture and solar cells has become the focus of research - such as building integration. Field-type photovoltaic system (Β_丨% Building-integrated solar photovoltaic system is to develop solar panels with building materials ships, and then introduce solar photovoltaic formwork materials into building bodies by architectural design techniques. In recent years, the industry has developed and can be used It is required to produce solar photovoltaic template glass with different solar transmittance as a window' to simultaneously generate electricity and shade. [New content] This creation provides a transparent light-emitting power generation wall (buHd facade) with a bottom-mounted light-emitting module. The light is derived from the solar panel to uniformly emit light and is convenient to maintain. The present invention proposes a transparent light-emitting power generation wall with a bottom-added light-emitting module, comprising a plurality of transparent solar panels and a light-emitting module disposed under each solar panel, wherein the solar energy The battery panel is disposed on a plurality of walls of a building, and the above lighting module A light guide plate and an LED light source disposed on a side of the light guide plate are arranged to uniformly emit light emitted from the LED light source to the solar cell panel through the front surface of the light guide plate, and then emit light from the front surface of each solar energy M4Q9383 pool plate. In the embodiment, the transparent solar panel comprises a plurality of transparent solar cells. In one embodiment of the present invention, the raised portions constitute an array pattern. In the present invention, in the embodiment, the front surface of the light guide plate In one embodiment of the present invention, the LED light source includes a strip structure composed of a plurality of |_ed light emitting diodes. In one embodiment of the present invention, the building includes a house, Office building, school, "shop or gym. ® Based on the above, this creation uses a transparent solar panel on the building wall and is equipped with a lighting module that is placed under the solar panel, so that the building integrated sun can be achieved. Photovoltaic system (BIPV), or design-designed Photovoltaics (BDPV) based on demand; even able to take With the texture or pattern of the wall itself, the building-fit solar photovoltaic system (Buj丨djng Adaptjve)
Photovoltaics ’ BAPV)。而且,外加式發光模組具有維修方便的優點, 且位在發光模組之上的透明太陽能電池板能為發光模組抵擋外部的侵 害0 • 為讓本創作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。 【實施方式】 圖1是依照本創作之一實施例之一種底部外加發光模組的透明發 光發電牆的示意圖。 清參照圖1 ’本實施例中的「建築牆面」是指建築物1〇〇除窗戶 102與出入口 104以外的牆面。至於本創作之底部外加發光模組 的建築牆面用透明發光型太陽能電池包括透明太陽能電池板1〇8以及 發光模組110。透明太陽能電池板108設置於建築物1〇〇的牆面106 上’而能達到透視上述牆面1〇6的效果。上述建築物1〇〇例如住宅、 M409383 辦公大樓、學校、商店、體育館等。至於本創作的發光模組1彳〇設置 於每一太陽能電池板108底下’其中發光模組11〇包括一導光板112 與設置在導光板112的側面的LED光源114。 圖2是圖1之放大剖面圖,其中顯示LED光源114設置在導光板 112的側面112a,使得LED光源114發出的光能經由導光板112的 正面112b均勻發射至太陽能電池板1〇8,再自太陽能電池板1〇8的 正面108a發光。在圖2中’透明太陽能電池板1〇8包括多個透明太 陽能電池200、LED光源114則是由數個LED發光二極體202組成 之條狀結構。 另外,本實施例的發光模組中之導光板112的正面112b可具有 凸起300(如圖3)或凹痕400(如圖4),以使LED光源114發出的光能 經由導光板112均勻發光。 綜上所述,本創作在建築牆面上設置具有發光光源之太陽能電 板,並搭配可均勻發光的模組設計,因此可同時具備發電與均勻發光 之功效,而用於建合敎㈣電魏(B|pv),還能配合牆面做設 計用於建築設計型太陽光鮮統(BDPV),配太陽能電板與牆面上 的紋路或圖形而用於建築配合型太陽光電系統(BApv)。 雖然本創作已以實施例揭露如上,然其並非用以限定本創作,任 何所屬技術賴巾具有通常知識者,在不麟本創作之精神和範圍 =,當可作些許之更動錢飾,故本_之保護細#視後附之 專利範圍所界定者為準。 【圖式簡單說明】 圖1是依照本創作之-實施例之一種底部外加發光模組 電牆的示意圖。 圖2是圖1之放大圖。 圖3是圖1的導光板之細部示意圖。 圖4是圊1的導光板之另—種細部示意圖。 M409383 【主要元件符號說明】 100 ··建築物 102 :窗戶 104 :出入口 106 :踏面 108 :太陽能電池板 108a :正面 •y 110 :發光模組 ‘ 112:導光板 φ 112a :側面 112b :正面 114 : LED 光源 200 :透明太陽能電池 202 : LED發光二極體 300 :凸起 400 :凹痕Photovoltaics ’ BAPV). Moreover, the external light-emitting module has the advantages of convenient maintenance, and the transparent solar panel located above the light-emitting module can resist the external damage of the light-emitting module. 0 • To make the above features and advantages of the present creation more obvious It is to be understood that the following specific examples, and the accompanying drawings, are described in detail below. [Embodiment] FIG. 1 is a schematic diagram of a transparent light-emitting power generation wall of a bottom external light-emitting module according to an embodiment of the present invention. Referring to Fig. 1 ''Building wall surface' in this embodiment means a wall surface of the building 1 except for the window 102 and the entrance and exit 104. The transparent light-emitting solar cell for building wall surface with the light-emitting module at the bottom of the present invention includes a transparent solar panel 1 8 and a light-emitting module 110. The transparent solar panel 108 is disposed on the wall 106 of the building 1' to achieve the effect of seeing the wall surface 1〇6. The above-mentioned buildings include, for example, houses, M409383 office buildings, schools, shops, stadiums, and the like. The light-emitting module 1 of the present invention is disposed under each solar panel 108. The light-emitting module 11 includes a light guide plate 112 and an LED light source 114 disposed on a side of the light guide plate 112. 2 is an enlarged cross-sectional view of FIG. 1 , in which the LED light source 114 is disposed on the side surface 112 a of the light guide plate 112 such that light emitted from the LED light source 114 is uniformly emitted to the solar panel 1 〇 8 via the front surface 112 b of the light guide plate 112 , and then The front surface 108a of the solar panel 1 is illuminated. In Fig. 2, the transparent solar panel 1 8 includes a plurality of transparent solar cells 200, and the LED light source 114 is a strip-like structure composed of a plurality of LED light-emitting diodes 202. In addition, the front surface 112b of the light guide plate 112 in the light-emitting module of the embodiment may have a protrusion 300 (such as FIG. 3) or a dimple 400 (such as FIG. 4), so that the light emitted by the LED light source 114 can pass through the light guide plate 112. Uniform illumination. In summary, the creation of a solar panel with a illuminating light source on the wall of the building, combined with a module design that can evenly illuminate, can simultaneously have the effect of generating electricity and uniform illuminating, and is used for building and splicing (four) electricity. Wei (B|pv) can also be used in conjunction with wall design for architectural design solar radiance (BDPV), with solar panels and patterns or patterns on the wall for building-fit solar photovoltaic systems (BApv) . Although the present invention has been disclosed above by way of example, it is not intended to limit the creation of the present invention. Any of the technical sacred towels have the usual knowledge, and the spirit and scope of the creation of the syllabary = when it is possible to make some more money, therefore The protection of this article is subject to the definition of the patent scope attached. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an electric wall of a bottom external light-emitting module according to an embodiment of the present invention. Figure 2 is an enlarged view of Figure 1. 3 is a schematic view showing a detail of the light guide plate of FIG. 1. 4 is a schematic view showing another detail of the light guide plate of the crucible 1. M409383 [Description of main component symbols] 100 · Building 102: Window 104: Entrance 106: Tread 108: Solar panel 108a: Front • y 110: Light-emitting module '112: Light guide plate φ 112a: Side 112b: Front surface 114: LED light source 200: transparent solar cell 202: LED light-emitting diode 300: bump 400: dent