587232 玖、發明說明: 【發明所屬之技術領域】 本發明係關於一種利用太陽光發電面板之視覺資 送方法,其係於太陽光發電面板照射資訊發送用之 光,而使其放映。 【先前技術】 以夜間之視覺資訊發送方法之例而言,習知者多使 由霓虹燈進行宣傳、利用大型電視影像之宣傳、通訊拿 【發明内容】 (發明欲解決之問題) 然而,上述經由霓虹燈之表現方法,係被限定於既 狀之霓虹燈管等、或被預先設定了狹小的範圍,變化 故有不夠引人注意之問題。 另一方面,若使用上述大型電視之影像,雖可解決 之問題點,但其構造極為複雜,因而產生高價位之問 另外,針對上述問題點,可考慮於建築物之外壁面 築物設置往下懸吊的垂掛幕,對於該可撓性螢幕的表 以放映機照射影像光而放映影像之方法。 但是,上述之建築物外壁面一般為混凝土製或貼 磚,而且存在有僅可透過光的透明玻璃的窗,因此若 述外壁面進行放映,容易造成不鮮明之影像。另一方 上述之可撓性螢幕容易因其本身重量或風而產生皺褶 此使用該螢幕予以放映時,亦容易造成影像之不鮮明 而,不論上述何種方法,均難以充分地引人注意。 312/發明說明書(補件)/92-07/92114253 訊發 影像 用經 等。 定形 少, 前述 題。 或構 面, 有磁 於上 面, ,因 。因 5 587232 另一方面,進行太陽光發電之太陽光發電裝置具備有太 陽光發電面板,於白天接受太陽光而進行太陽光發電,此 裝置近來漸漸被廣泛利用。然而,上述之太陽光發電面板 於夜間無法充分接受太陽光,因此上述太陽光發電面板係 處於未被有效利用之狀態。 (發明目的) 本發明係著眼於上述情況而提出者,本發明之目的在 於,在利用影像進行視覺資訊發送時,使該發送内容能夠 充分地引人注意。又,本發明之另一目的在於,以簡單的 構造且低價之方式達成上述資訊發送。 (解決問題的手段) 為解決上述問題之本發明之利用太陽光發電面板之視 覺資訊發送方法,如下所述。另外,在本部份中賦予各用 語之元件符號,並非為將本發明之技術範圍限定於後述「發 明之實施形態」部分之内容中所說明者。 申請專利範圍第1項之發明,係經由太陽光發電面板3 進行太陽光發電,該太陽光發電面板3支持於接受太陽光 1 7之構築物2,為平坦且具剛性者;另一方面,將資訊發 送用之影像光2 6予以照射,將該影像2 7放映於上述太陽 光發電面板3。 申請專利範圍第2項之發明,係於申請專利範圍第1項 之發明中,將上述太陽光發電面板 3之太陽光發電之電 力,使用於上述影像光2 6之照射。 申請專利範圍第3項之發明,係於申請專利範圍第1或 6 312/發明說明書(補件)/92-07/921】4253 587232 2項之發明中,利用上述構築物2構成建築物1之骨架侧 構件,沿著上述構築物2之外面,並排地設置複數枚的上 述太陽光發電面板3,利用此等太陽光發電面板3構成上 述建築物1之外殼,自此建築物1之外面方向(OUT)向著上 述太陽光發電面板3群照射影像光2 6。 申請專利範圍第4項之發明,係於申請專利範圍第1或 2項之發明中,利用上述構築物2構成建築物1之骨架側 構件,沿著上述構築物2之外面設置上述太陽光發電面板 3,以此太陽光發電面板3構成上述建築物1之外殼,將上 述太陽光發電面板3予以半透明化,自上述建築物1之内 面方向(I N )向著上述太陽光發電面板3照射影像光2 6。 申請專利範圍第5項之發明,係於申請專利範圍第4項 之發明中,沿著上述太陽光發電面板 3 之外緣部延展方 向,設置將該緣部支持於上述構築物2的框格1 2,以此框 格1 2之長方向之各部分剖面來看(圖2 ),上述框格1 2之 屋内側構件1 3自上述太陽光發電面板3側向上述建築物1 之内面方向(I N )突出,其剖面形狀係朝向上述内面方向(I N ) 之尖塔形。 【實施方式】 以下,將本發明之實施形態以圖示說明。 於圖中,元件符號1係建築物1,此建築物1具備有: 構成其骨架側構件之構築物2,構成上述建築物1之外殼, 且沿著此構築物2之外面並排地多牧設置之太陽光發電面 板3,及使此等之各太陽光發電面板3支持於上述構築物2 7 312/發明說明書(補件)/92-07/92114253 587232 之支持工具4。 上述構築物2具備有:立設於地面上之多根柱7 ;支持 於此等柱7之多根樑8,及支持於此等樑8且區劃各層樓 之屋内室9而成形之地板10。 上述各太陽光發電面板3係平坦且具剛性之矩形板,互 相之間為同形且同大小,向垂直方向及水平方面延伸。而 且,此等之各太陽光發電面板3沿著上述之各方向配設, 排列成棋盤狀。 上述支持工具4係藉由沿著上述之各太陽光發電面板3 之外緣部延伸,將該外緣部支持於上述構築物2之樑8上 之框格1 2所構成。此框格1 2係支持於上述構築物2,由 其長度方向之各部分剖面來看(參照圖 2 ),其具備有:屋 内側構件1 3,自上述太陽光發電面板3側向上述建築物1 之内面方向(IN)突出,且接合於上述太陽光發電面板3之 外緣部的内側面;以及屋外側構件1 4,接合於上述太陽光 發電面板3之外側面,且連結於上述屋内側構件1 3,上述 屋内側構件1 3之各部分剖面形狀為向著上述建築物1之内 面方向(IN)之尖塔形,具體而言,為突出向上述内側方向 (IN)之正三角形。 上述各太陽光發電面板3係以支持工具4支持於上述構 築物2,用以接受來自建築物1外面方向的太陽光1 7,故 可經由將上述太陽光 17之光能轉變為電能而進行太陽光 發電。於上述建築物1之内面方向(IN)設置有電池18,用 來將該發電所產生之電力予以蓄電,則上述各太陽光發電 312/發明說明書(補件)/92-07/92114253 8 587232 面板3與電池1 8構成太陽光發電裝置1 9。 圖3中,上述各太陽光發電面板3具備有:互 一對無色或半透明玻璃基板2 1、2 1 ;介設於此等 2 1、2 1之間而進行上述發電之矽膜2 2 ;介設於J 與上述兩玻璃基板2 1、2 1中靠外面方向(0 U T )側 板2 1之間,由氧化鋅等金屬製成之透明電極膜 設於上述矽膜2 2與内面方向(I N )側之玻璃基板\ 與上述同樣之電極膜 24,此等均為以相互地面 態,相互間牢固地固接而一體化。又,上述太陽 板3之全體係為半透明體。 如圖1、3中實線所示,自上述建築物1之外面:¾ 向上述太陽光發電面板3群照射資訊發送用之影 設有放映機2 8將該影像2 7放映於上述各太陽光 3。以此放映機2 8照射影像光2 6所用的電力之一 部,可使用以上述之各太陽光發電面板3之太陽 蓄電於上述電池1 8中之電力。亦即,經由上述太 面板3之太陽光發電之電力,直接用於上述影像夫 射。 依上述構成,則可藉由支持於接受太陽光1 7之 之平坦且具剛性的太陽光發電面板行太陽光發電 面,將資訊發送用之影像光2 6予以照射,該影揭 於上述太陽光發電面板3。 其中,可對於上述影像 2 7預先進行種種準備 述太陽光發電面板3係平坦且具剛性,同時此太 312/發明說明書(補件)/92-07/92114253 相面對之 玻璃基板 t矽膜2 2 之玻璃基 23 ;及介 ί 1之間、 接觸之狀 光發電面 「向(OUT) 像光2 6, 發電面板 部份或全 光發電而 陽光發電 〕26之照 構築物2 ,另一方 L 2 7放映 〇 又,上 陽光發電 9 587232 面板3為了輸出發電所產生的電力,其内部具有金屬膜。 因此,於此太陽光發電面板3照射影像光2 6而放映其影像 2 7,以上述太陽光發電面板3為基準之上述影像光2 6之照 射側及其相反側中,至少自上述影像光 2 6之照射側來看 時,如圖1、2中實線所示,可得到較對於上述太陽光發電 面板3之上述影像光2 6之反射光更為鮮明的影像2 7。 又,由於上述太陽光發電面板3係半透明,如各圖中虛 線所示,自上述影像光2 6照射側之相反側來看時,可得到 較對於上述太陽光發電面板3之上述影像光26的透過光更 為鮮明的影像2 7。 因而,若根據上述構成,於進行視覺資訊發送時,可將 其發送内容進行種種變化,同時使影像2 7鮮明化,因此能 充分引人注意。 又,上述之資訊發送因在進行太陽光發電之基礎上而可 利用無法用於夜間的太陽光發電面板 3,因此,根據此種 利用,上述資訊發送對於此經由太陽光發電面板3之太陽 光發電不構成障礙,可以簡單的構造且低價格而達成。 又,如前所述,將太陽光發電面板3的太陽光發電所產 生之電力使用於上述放映機2 8所產生之影像光2 6之照射。 因此,在白天藉由上述太陽光發電面板 3所發電之電 力,於夜間被利用至上述太陽光發電面板3所行之放映, 故資訊的發送不要求其他的電力來源,因而此資訊之發送 可以低價格達成。 又,如圖1、3中實線所示,以構築物 2構成建築物1 10 312/發明說明書(補件)/92-07/92114253 587232 之骨架側構件,沿著上述構築物2之外面並排地設置多牧 之前述太陽光發電面板3,以此等太陽光發電面板3構成 上述建築物1之外殼,自此建築物1之外面方向(OUT)向著 上述太陽光發電面板3群照射影像光2 6。 因此,由上述太陽光發電面板3群所放映之影像2 7,不 受地板1 0等之建築物1内部側的構件所阻礙,可相應於上 述太陽光發電面板3群外面之全面積而放大。故,若根據 此資訊發送,可更加充分地引人注意。 如各圖中之虛線所示,於上述建築物1之屋内室9中設 置放映機28,自上述建築物1之内面方向(IN)向著上述太 陽光發電面板3照射影像光2 6。 因此,有關照射上述影像光2 6之放映機2 8,此放映機 2 8於上述建築物1中受到保護,從其保養檢修或防水、防 盜等觀點而言,具有管理容易之優點。 又,自建築物 1之外面方向(OUT)觀看上述太陽光發電 面板3之影像2 7時,不易直接由建築物1之外面方向(0 U T) 看見上述影像光2 6之光源,如此,則視線易於集中在上述 太陽光發電面板3之影像2 7。因此,若根據此資訊發送, 則可更加充分地引人注意。另外,在此狀況下,亦可從建 築物1之内面方向(IN)觀看上述太陽光發電面板3之影像 27 ° 又,如前所述,沿著太陽光發電面板3之外緣部延伸, 設置將此外緣部支持於上述構築物2之框格1 2,以此框格 12之長方向之各部分剖面來看(圖2),自上述太陽光發電 11 312/發明說明書(補件)/92-07/92114253 587232 面板3側向上述建築物1内面方向突出之上述框格1 2的 内側構件1 3,其剖面形狀為向著上述内面方向之尖塔形 此處,如上所述,自建築物1的内面方向(IN)向著上 太陽光發電面板3照射影像光2 6時,透過此太陽光發電 板3朝向建築物1之外面方向(0 U T)的影像光2 6,其一 份受上述框格1 2遮蓋而成為陰影3 1,該陰影3 1出現在 上述太陽光發電面板3放映之影像2 7。 然而,如上所述,框格1 2之屋内側構件1 3係向著上 内面方向(IN)之尖塔形。因此,在此情況下產生的上述 影 3 1,假設如圖3中破折線所示,與上述屋内側構件 單純為矩形之情況下所產生之陰影 3 2相較,其面積可 小 〇 因而,上述陰影31之面積可較小,故上述影像2 7可 鮮明,而更能充分引人注意。 又,上述屋内側構件 1 3 之各部分剖面形狀係朝向上 建築物1之内面方向(IN)突出之正三角形。 因此,由於上述屋内側構件1 3可使上述陰影3 1之面 較小且強度提昇,故具有沿著上述太陽光發電面板3之 向不具左右方向性之優點。 另外,以上所述雖根據圖示的例,但構築物亦可為單 支持上述太陽光發電面板3之支持框架,又,亦可為已 成之建築物1本身。又,上述之各太陽光發電面板3亦 互為不同形狀不同大小者。另,上述各太陽光發電面板 可為三角形板、梯形板、圓形板等,亦可為此等之組合 312/發明說明書(補件)/92-07/921M253 屋 〇 述 面 部 於 述 陰 13 較 更 述 積 方 純 完 可 3 12 587232 且,上述太陽光發電面板3可向水平或傾斜方向延展 者,上述太陽光發電面板3之電極膜24可為不透明之 金屬製成的膜,但亦可於此膜上形成無數個狹縫或 孔,使全體成為半透明。 更且,朝向上述太陽光發電面板3之影像光2 6的 可為日光,又,亦可為來自建築物1外面方向(OUT)的 與來自内面方向(I N )的照射經時地交互進行,或同時 亦可。另外,上述屋内側構件1 3之各部分剖面形狀亦 直角三角形或正梯形。 又,亦可將上述太陽光發電面板3之太陽光發電所 的電力透過轉換器連接到電力公司系統,亦即,將上 電所產生之電力暫時販賣給電力公司,另一方面,向 電力公司購入供上述影像光2 6照射用之電力,藉此, 地將太陽光發電面板3之太陽光發電所產生之電力使 上述影像光26的照射。 (發明效果) 根據本發明所得之效果,如下所述。 申請專利範圍第1項之發明,係經由太陽光發電面 行太陽光發電,該太陽光發電面板支持於接受太陽光 築物,為平坦且具剛性者;另一方面,將資訊發送用 像光予以照射,將該影像放映於上述太陽光發電面板 其中,可針對上述影像預先做種種準備。又,上述 光發電面板係平坦且具剛性,同時此太陽光發電面板 輸出發電所產生的電力,其内部具有金屬膜。因此, 312/發明說明書(補件)/92-07/92114253 〇再 鋁等 為小 照射 照射 進行 可為 產生 述發 上述 間接 用於 板進 之構 之影 〇 太陽 為了 於此 13 587232 太陽光發電面板照射影像光而放映其影像,以上述太陽光 發電面板為基準之上述影像光之照射側及其相反側中,至 少自上述影像光之照射側來看時,可得到較對於上述太陽 光發電面板之上述影像光之反射光更為鮮明的影像。 又,若上述太陽光發電面板為半透明,則自上述影像光 照射側之相反側來看時,可得到較對於上述太陽光發電面 板之上述影像光的透過光更為鮮明的影像。 因而,若根據上述構成,於進行視覺資訊發送時,可將 其發送内容進行種種變化,同時使影像鮮明化,因此能充 分引人注意。 又,上述之資訊發送因在進行太陽光發電之基礎上可利 用無法用於夜間的太陽光發電面板,因此,根據此種利用, 上述資訊發送對於此經由太陽光發電面板之太陽光發電不 構成障礙,可以簡單的構造且低價格而達成。 申請專利範圍第2項之發明,係將上述太陽光發電面板 之太陽光發電所產生之電力用於上述影像光之照射。 因此,在白天藉由上述太陽光發電面板所發電之電力, 於夜間被利用至上述太陽光發電面板所行之放映,故資訊 的發送不要求其他的電力來源,因而此資訊之發送可以低 價格達成。 申請專利範圍第3項之發明,係以上述構築物構成建築 物之骨架側構件,沿著上述構築物之外面並排地設置多牧 之前述太陽光發電面板,以此等太陽光發電面板構成上述 建築物之外殼,自此建築物之外面方向(OUT)向著上述太陽 14 312/發明說明書(補件)/92-07/92114253 587232 光發電面板群照射影像光。 因此,由上述太陽光發電面板群所放映之影像,不受地 板等之建築物内部側的構件所阻礙,可相應於上述太陽光 發電面板群外面之全面積而放大。故,若根據此資訊發送, 可更加充分地引人注意。 申請專利範圍第4項之發明,係以上述構築物構成建築 物之骨架側構件,沿著上述構築物之外面設置上述太陽光 發電面板,以太陽光發電面板構成上述建築物的外殼,使 上述太陽光發電面板半透明,自上述建築物之内面方向朝 向上述太陽光發電面板照射影像光。 因此,有關照射上述影像光之放映機,此放映機於上述 建築物中受到保護,從其保養檢修或防水、防盜等觀點而 言,具有管理容易之優點。 又,自建築物之外面方向(OUT)觀看上述太陽光發電面 板之影像時,不易直接由建築物之外面方向(OUT)看見上述 影像光之光源,如此,則視線易於集中在上述太陽光發電 面板之影像。因此,若根據此資訊發送,則可更加充分地 引人注意。 申請專利範圍第5項之發明,係沿著上述太陽光發電面 板之外緣部延伸,設置將此外緣部支持於上述構築物之框 格,以此框格之長方向之各部分剖面來看(圖 2 ),自上述 太陽光發電面板側突出於上述建築物内面方向之上述框格 的屋内側構件,其剖面形狀為向著上述内面方向之尖塔形。 此處,如上所述,自建築物的内面方向(IN)向著上述太 15 312/發明說明書(補件)/92-07/92114253 587232 陽光發電面板照射影像光時,透過此太陽光發電面板朝向 建築物之外面方向(0 U T)的影像光,其一部份受上述框格遮 蓋而成為陰影,該陰影出現在於上述太陽光發電面板放映 之影像。 然而,如上所述,框格之屋内侧構件係向著上述内面方 向(I N )之尖塔形。因此,在此情況下產生的上述陰影,假 設如圖3中破折線所示,與上述屋内側構件單純為矩形之 情況下所產生之陰影相較,其面積可較小。 因而,上述陰影之面積可較小,故上述影像可更鮮明, 而更能充分引人注意。 【圖式簡單說明】 圖1為建築物之立體部分剖面圖。 圖2為於圖1中所示之部分俯視剖面圖。 圖3係圖2之部分放大剖面圖。 (元件符號說明) 1 建築物 2 構築物 3 太陽光發電面板 4 支持工具 7 柱 8 樑 9 屋内室 10 地板 12 框格 16 312/發明說明書(補件)/92-07/92114253 587232 13 屋内側構件 14 屋外側構件 17 太陽光 18 電池 19 太陽光發電裝置 2 1 玻璃基板 22 矽膜 2 3 透明電極膜 2 4 電極膜 26 影像光 27 影像 2 8 放映機 3 1 陰影 32 陰影 312/發明說明書(補件)/92-07/92114253587232 (1) Description of the invention: [Technical field to which the invention belongs] The present invention relates to a method for visually transmitting a photovoltaic power generation panel, which is used to illuminate the light for transmitting information for the photovoltaic power generation panel to display. [Prior art] Taking the method of sending visual information at night as an example, the learners often use neon lights to propagate, use large-scale television images for propaganda, and communication. [Summary] (Problems to be Solved by the Invention) However, the above mentioned The expression method of neon light is limited to the existing neon tube, etc., or it has been set in a narrow range in advance. The change is not enough to attract attention. On the other hand, if the video of the large TV is used, the problem can be solved, but its structure is extremely complicated, which causes a high price. In addition, for the above problem, you can consider the installation of the wall structures outside the building. A method of projecting an image by irradiating an image light on a surface of the flexible screen with a projector suspended from a hanging curtain. However, the outer wall surface of the above-mentioned building is generally made of concrete or tiled, and there are windows of transparent glass that can only transmit light. Therefore, if the outer wall surface is screened, it is easy to cause unclear images. On the other hand, the flexible screen mentioned above is easy to be wrinkled due to its weight or wind. When this screen is used for projection, it is easy to cause the image to be unclear. No matter which method is used, it is difficult to attract enough attention. 312 / Invention Specification (Supplements) / 92-07 / 92114253 Newsletter for video, etc. Set less, the aforementioned problems. Or the facet is magnetic above, because of. 5 587232 On the other hand, a photovoltaic power generation device for photovoltaic power generation has a solar power generation panel that receives sunlight during the day and performs photovoltaic power generation. This device has recently been widely used. However, the above-mentioned photovoltaic power generation panel cannot sufficiently receive sunlight at night, and therefore the above-mentioned photovoltaic power generation panel is in an unused state. [Objective of the Invention] The present invention has been made in view of the above-mentioned circumstances, and an object of the present invention is to make the content of the transmission sufficiently noticeable when transmitting visual information using a video. Another object of the present invention is to achieve the above-mentioned information transmission with a simple structure and a low cost. (Means for Solving the Problems) A method for transmitting visual information using a photovoltaic power generation panel of the present invention to solve the above problems is as follows. In addition, the component symbols given to each term in this section are not intended to limit the technical scope of the present invention to the content of the "implementation form of the invention" described later. The invention of item 1 in the scope of patent application is for solar power generation through a solar power generation panel 3, which is supported by a structure 2 that receives sunlight 17 and is flat and rigid; on the other hand, The image light 26 for information transmission is irradiated, and the image 27 is projected on the solar power generation panel 3 described above. The invention in item 2 of the patent application scope is the invention in item 1 of the patent application scope, and the electric power of the photovoltaic power generation of the photovoltaic power generation panel 3 is used to irradiate the imaging light 26. The invention of item 3 in the scope of patent application belongs to the invention in item 2 of the scope of patent application 1 or 6 312 / Invention Specification (Supplement) / 92-07 / 921】 4253 587232. The skeleton-side member is provided with a plurality of the photovoltaic power generation panels 3 side by side along the outer surface of the structure 2, and the photovoltaic power generation panels 3 are used to form the outer shell of the building 1. OUT) irradiates image light 26 to the three solar power generation panels. The invention in item 4 of the scope of patent application is the invention in item 1 or 2 of the scope of patent application. The above-mentioned structure 2 is used to form the skeleton side member of the building 1 and the above-mentioned solar power generation panel 3 is provided along the outer surface of the structure 2 The solar power generation panel 3 is used to constitute the outer shell of the building 1, the solar power generation panel 3 is translucent, and the image light 2 is irradiated from the inner direction (IN) of the building 1 toward the solar power generation panel 3. 6. The invention in the fifth scope of the patent application is the invention in the fourth scope of the patent application, and along the extending direction of the outer edge portion of the photovoltaic power generation panel 3, a sash 1 supporting the edge portion to the structure 2 is provided. 2. According to the cross section of each part in the longitudinal direction of the frame 12 (Fig. 2), the inside member 1 of the frame 12 is from the side of the photovoltaic power generation panel 3 to the inner surface of the building 1 ( IN) protruding, and its cross-sectional shape is a spire shape facing the above-mentioned inner surface direction (IN). [Embodiment] Hereinafter, an embodiment of the present invention will be illustrated. In the figure, the component symbol 1 is a building 1. This building 1 is provided with: a structure 2 constituting a skeleton side member thereof, a shell constituting the above-mentioned building 1, and a plurality of animals arranged side by side along the outer surface of the structure 2 The photovoltaic power generation panel 3 and the supporting tools 4 for supporting each of these photovoltaic power generation panels 3 on the above-mentioned structure 2 7 312 / Invention Specification (Supplement) / 92-07 / 92114253 587232. The above-mentioned structure 2 includes: a plurality of columns 7 standing on the ground; a plurality of beams 8 supporting the columns 7; and a floor 10 formed by supporting the beams 8 and dividing the interior rooms 9 of the various floors. Each of the above photovoltaic power generation panels 3 is a flat and rigid rectangular plate, which is the same shape and the same size as each other, and extends vertically and horizontally. In addition, each of these photovoltaic power generation panels 3 is arranged along each of the above-mentioned directions and arranged in a checkerboard shape. The support tool 4 is constituted by extending along the outer edge portions of each of the photovoltaic power generation panels 3 described above, and supporting the outer edge portion on a frame 12 on the beam 8 of the structure 2. This sash 12 is supported by the above-mentioned structure 2 and viewed from the cross section of each part in the length direction (refer to FIG. 2), and is provided with a house inner member 1 3 and a side from the photovoltaic power generation panel 3 to the building The inner surface direction (IN) of 1 protrudes and is joined to the inner side surface of the outer edge portion of the photovoltaic power generation panel 3; and the outer side member 14 is joined to the outer side surface of the photovoltaic power generation panel 3 and is connected to the house. The cross-sectional shape of each of the inner member 13 and the above-mentioned house inner member 13 is a spire shape toward the inner surface direction (IN) of the building 1, specifically, a regular triangle protruding toward the inner direction (IN). Each of the photovoltaic power generation panels 3 is supported by the structure 2 with a support tool 4 to receive sunlight 17 from the direction outside the building 1. Therefore, the solar energy can be converted into electricity by converting the light energy of the sunlight 17 into electricity. Photoelectricity. A battery 18 is provided in the inside direction (IN) of the above-mentioned building 1 to store the electricity generated by the power generation. Then, each of the above-mentioned solar power generation 312 / Invention Manual (Supplement) / 92-07 / 92114253 8 587232 The panel 3 and the battery 18 constitute a photovoltaic power generation device 19. In FIG. 3, each of the photovoltaic power generation panels 3 includes: a pair of colorless or translucent glass substrates 2 1 and 2 1 each other; and a silicon film 2 2 interposed between these 2 1 and 2 1 to perform the power generation described above 2 2 ; Interposed between J and the above two glass substrates 21, 2 1 in the outer direction (0 UT) side plate 21, a transparent electrode film made of metal such as zinc oxide is provided in the above-mentioned silicon film 22 and the inner surface direction; The glass substrate on the (IN) side is the same as the above-mentioned electrode film 24, and these are integrated with each other in a state of being grounded and firmly fixed to each other. The entire system of the solar panel 3 is a translucent body. As shown by the solid lines in Figs. 1 and 3, from the outside of the building 1 above: ¾ A projector for transmitting information is irradiated to the three groups of solar power generation panels, and a projector 2 8 is used to project the image 2 7 to each of the sunlight 3. As a part of the electric power used for the projector 28 to irradiate the image light 26, the electric power stored in the above-mentioned battery 18 by the above-mentioned solar photovoltaic panel 3 can be used. That is, the electric power generated by the sunlight through the solar panel 3 is directly used for the above-mentioned image radiography. According to the above structure, the flat and rigid solar power generation panel supporting the solar light 17 can support the solar power generation surface, and the image light 26 for information transmission can be irradiated, and the shadow is exposed on the sun. Photovoltaic power generation panel 3. Among them, various preparations can be made in advance for the above-mentioned image 27. The photovoltaic power generation panel 3 is flat and rigid, and at the same time, the glass substrate t silicon film facing the substrate 312 / Invention Specification (Supplement) / 92-07 / 92114253. 2 2 of the glass base 23; and the contact between the photovoltaic power generation surface "out (like) the light 2 6, the power generation panel part or all-light power generation and solar power generation] 26 of the photo structure 2 and the other side L 2 7 is projected. Moreover, the upper solar power 9 587232 panel 3 has a metal film inside in order to output the power generated by the power generation. Therefore, the solar power generation panel 3 illuminates the image light 2 6 and projects its image 2 7 to From the irradiation side of the image light 26 and the opposite side of the photovoltaic power generation panel 3 as a reference, at least when viewed from the irradiation side of the image light 26, as shown by solid lines in FIGS. The image 27 is more vivid than the reflected light from the image light 26 of the solar power generation panel 3. Since the solar power generation panel 3 is translucent, as shown by the dotted line in each figure, 2 6 View from the opposite side of the irradiation side A brighter image 27 can be obtained than the transmitted light of the image light 26 of the photovoltaic power generation panel 3. Therefore, according to the above configuration, when transmitting visual information, the transmission content can be changed in various ways. At the same time, the image 2 7 is sharpened, so that it can be fully noticeable. Moreover, the above-mentioned information transmission can use the photovoltaic power generation panel 3 that cannot be used at night because of the photovoltaic power generation. The above information transmission does not constitute an obstacle to the solar power generation through the solar power generation panel 3, and can be achieved with a simple structure and a low price. In addition, as described above, the solar power generation generated by the solar power generation panel 3 The electric power is used to illuminate the image light 26 generated by the above-mentioned projector 28. Therefore, the electric power generated by the above-mentioned solar power generation panel 3 during the daytime is utilized to the projection performed by the above-mentioned solar power generation panel 3 at night, Therefore, the transmission of information does not require other power sources, so the transmission of this information can be achieved at a low price. Also, as shown by the solid line in Figures 1 and 3 To construct a structure 1 with a structure 2 10 10 312 / Invention Specification (Supplement) / 92-07 / 92114253 587232, side frames of the above-mentioned structure 2 are arranged side by side with the aforementioned photovoltaic power generation panel 3 of Tomu, so as to The waiting solar power generation panel 3 constitutes the outer shell of the above-mentioned building 1, and from this outside direction (OUT) of the building 1, the image light 26 is irradiated toward the three solar power generation panels. Therefore, the three solar power generation panels 3 The projected image 27 is not obstructed by members on the inner side of the building 1 such as the floor 10, and can be enlarged corresponding to the entire area of the outside of the solar power generation panel 3 group. Therefore, if you send it based on this information, it will be more noticeable. As shown by the dotted line in each figure, a projector 28 is installed in the interior room 9 of the above-mentioned building 1, and the image light 26 is irradiated from the inside direction (IN) of the above-mentioned building 1 toward the solar power generating panel 3. Therefore, the projector 28, which irradiates the above-mentioned image light 26, is protected in the above-mentioned building 1, and has the advantage of being easy to manage from the standpoint of maintenance, waterproofing, and theft prevention. In addition, when viewing the image 2 7 of the solar power generation panel 3 from the outside direction (OUT) of the building 1, it is difficult to directly see the light source of the image light 26 from the outside direction (0 UT) of the building 1. It is easy to focus on the image 27 of the solar power generation panel 3 described above. Therefore, if you send it based on this information, it will be more noticeable. In addition, under this condition, the image 27 of the photovoltaic power generation panel 3 can also be viewed from the inside direction (IN) of the building 1. As described above, it extends along the outer edge of the photovoltaic power generation panel 3, A sash 12 supporting the outer edge portion to the above-mentioned structure 2 is provided. Looking at the section of each part in the longitudinal direction of the sash 12 (Figure 2), from the above-mentioned photovoltaic power generation 11 312 / Invention Specification (Supplement) / 92-07 / 92114253 587232 The inner member 1 3 of the above-mentioned sash 12 protruding sideways of the panel 3 toward the inner surface of the above-mentioned building 1 has a cross-sectional shape of a spire oriented toward the above-mentioned inner surface. Here, as described above, from the building When the inner direction (IN) of 1 is irradiated with the image light 2 6 toward the upper solar power generation panel 3, the image light 2 6 transmitted through the solar power generation panel 3 toward the outer surface direction (0 UT) of the building 1, a portion of which is subject to the above The frame 12 is covered to form a shadow 3 1, and the shadow 31 appears on the image 2 7 projected on the solar power generation panel 3. However, as described above, the inside members 1 3 of the sash 12 are spire-shaped toward the upper inner direction (IN). Therefore, the above-mentioned shadow 3 1 generated in this case is assumed to have a smaller area than the shadow 3 2 generated in the case where the inside member of the house is simply rectangular, as shown by the dashed line in FIG. 3. Therefore, The area of the above-mentioned shadow 31 can be smaller, so the above-mentioned image 27 can be sharp and more fully noticeable. The cross-sectional shape of each part of the above-mentioned house inner member 1 3 is a regular triangle protruding toward the inner surface direction (IN) of the upper building 1. Therefore, since the above-mentioned house inner member 13 can make the surface of the shadow 31 smaller and increase the strength, there is an advantage that there is no left-right direction along the direction of the photovoltaic power generation panel 3. In addition, although the above description is based on the illustrated example, the structure may be a support frame that supports the above-mentioned photovoltaic power generation panel 3 alone, or may be the completed building 1 itself. In addition, each of the photovoltaic power generation panels 3 described above is different in shape and size. In addition, each of the above photovoltaic power generation panels may be a triangular plate, a trapezoidal plate, a circular plate, etc., or a combination thereof 312 / Invention Manual (Supplement) / 92-07 / 921M253 More specifically, the product can be completely finished 3 12 587232. Moreover, the solar power generation panel 3 can be extended horizontally or obliquely. The electrode film 24 of the solar power generation panel 3 can be an opaque metal film, but also Numerous slits or holes can be formed in this film, making the whole translucent. Furthermore, the image light 26 directed to the solar power generation panel 3 may be daylight, or it may be interactively transmitted over time from the outside direction (OUT) of the building 1 and from the inside direction (IN). Or at the same time. In addition, the cross-sectional shape of each part of the above-mentioned house inner member 13 is also a right triangle or a trapezoid. In addition, the power of the photovoltaic power generation station of the photovoltaic power generation panel 3 may be connected to a power company system through a converter, that is, the power generated by the power supply is temporarily sold to the power company, and the power company is The electric power for irradiating the image light 26 is purchased, and thereby the electric power generated by the photovoltaic power generation of the photovoltaic power generation panel 3 is irradiated to the image light 26. (Effects of the Invention) The effects obtained by the present invention are as follows. The invention of item 1 in the scope of the patent application is for photovoltaic power generation through a photovoltaic power generation surface. The photovoltaic power generation panel is supported by a structure that receives sunlight and is flat and rigid. On the other hand, information is transmitted as light The image is irradiated, and the image is projected on the solar power generation panel, and various preparations can be made for the image in advance. The photovoltaic power generation panel is flat and rigid. At the same time, the photovoltaic power generation panel outputs electric power generated by power generation, and has a metal film inside. Therefore, 312 / Invention Specification (Supplement) / 92-07 / 92114253 〇 Re-aluminum and other small-light irradiation can be used to produce the above-mentioned structure indirectly used for board advancement. 〇 The sun for this 13 587232 solar power The panel irradiates image light to project its image, and at least when viewed from the image light irradiated side and the opposite side of the image light irradiated side and the opposite side based on the solar power generation panel, it is possible to obtain a power generation ratio that is higher than that for the solar light irradiated side. The reflected light of the image light of the panel is more vivid. In addition, if the photovoltaic power generation panel is translucent, when viewed from the side opposite to the image light irradiation side, a clearer image than the transmitted light of the image light of the photovoltaic power generation panel can be obtained. Therefore, according to the above configuration, when transmitting visual information, the content of the transmission can be variously changed, and the image can be sharpened at the same time, so it can be fully noticeable. In addition, the above-mentioned information transmission is based on the use of photovoltaic power generation panels, which cannot be used at night based on the photovoltaic power generation. Therefore, according to such use, the above-mentioned information transmission does not constitute the photovoltaic power generation through the photovoltaic power generation panel. The obstacle can be achieved with a simple structure and a low price. The invention in item 2 of the scope of patent application is to use the electric power generated by the photovoltaic power generation of the aforementioned photovoltaic power generation panel for the irradiation of the aforementioned image light. Therefore, the power generated by the solar power generation panel during the day is used at night to the projection of the solar power generation panel. Therefore, the transmission of information does not require other power sources, so the transmission of this information can be low price. Reached. The invention of claim 3 in the scope of patent application is to use the above-mentioned structure to construct the skeleton side members of the building, and to set the aforementioned photovoltaic power generation panels of Domaki side by side along the outer surface of the structure, and to use these photovoltaic power generation panels to constitute the above-mentioned building. The housing, from the outside direction (OUT) of the building, radiates image light toward the above-mentioned sun 14 312 / Invention Specification (Supplement) / 92-07 / 92114253 587232 photovoltaic power generation panel group. Therefore, the image projected by the above-mentioned photovoltaic power generation panel group is not obstructed by members on the inner side of a building such as a floor, and can be enlarged corresponding to the entire area outside the above-mentioned photovoltaic power generation panel group. Therefore, if you send it based on this information, it can be more noticeable. The fourth invention of the scope of the patent application is to construct the skeleton side member of the building with the above-mentioned structure, and install the photovoltaic power generation panel along the outer surface of the structure, and use the photovoltaic power generation panel to constitute the shell of the building to generate the photovoltaic power. The panel is translucent, and the image light is irradiated from the inner surface direction of the building toward the solar power generation panel. Therefore, the projector that irradiates the above-mentioned image light is protected in the above-mentioned building, and has the advantage of being easy to manage from the viewpoints of maintenance, waterproofing, and theft prevention. In addition, when viewing the image of the solar power generation panel from the direction outside the building (OUT), it is not easy to see the light source of the image light directly from the direction of the outside surface (OUT) of the building. In this way, it is easy to focus on the solar power generation Image of the panel. Therefore, if you send it based on this information, it will be more noticeable. The invention in the scope of the patent application No. 5 extends along the outer edge portion of the photovoltaic power generation panel, and a frame supporting the outer edge portion to the structure is provided, and the section of each part in the longitudinal direction of the frame is viewed ( FIG. 2), the cross-sectional shape of the inner frame member of the frame protruding from the solar power generation panel side in the direction of the inner surface of the building is a spire shape toward the inner surface. Here, as described above, when the solar power generation panel irradiates image light from the inner direction (IN) of the building toward the above 15 312 / Invention Specification (Supplement) / 92-07 / 92114253 587232, the solar power generation panel is oriented through Part of the image light in the direction of the building's outer surface (0 UT) is covered by the above-mentioned grid and becomes a shadow. The shadow appears in the image projected by the above-mentioned solar power generation panel. However, as described above, the inner member of the sash house is in the shape of a spire in the above-mentioned inner direction (I N). Therefore, the above-mentioned shadow generated in this case is assumed to be smaller in area than the shadow generated in the case where the inside member of the house is simply rectangular as shown by a dashed line in FIG. 3. Therefore, the area of the shadow can be smaller, so the image can be more vivid and more noticeable. [Brief description of the drawings] FIG. 1 is a sectional view of a three-dimensional part of a building. FIG. 2 is a partial plan sectional view shown in FIG. 1. FIG. 3 is a partially enlarged sectional view of FIG. 2. (Explanation of component symbols) 1 Building 2 Structure 3 Solar power generation panel 4 Supporting tool 7 Column 8 Beam 9 Interior room 10 Floor 12 Frame 16 312 / Invention specification (Supplement) / 92-07 / 92114253 587232 13 Interior components 14 Exterior members 17 Sunlight 18 Battery 19 Solar power generation device 2 1 Glass substrate 22 Silicon film 2 3 Transparent electrode film 2 4 Electrode film 26 Image light 27 Image 2 8 Projector 3 1 Shadow 32 Shadow 312 / Instruction manual (Supplement) ) / 92-07 / 92114253