M396302 五、新型說明: 【新型所屬之技術領域】 本創作係提供一種太陽能屋瓦結構及其組合,尤指一種具 矣且 高光線吸收率以及較偏觀性與變化性之太陽能屋瓦結構及^父 合〇 ’、 【先前技術】 —請參閱第ί圖,第i圖為先前技術一傳統太陽能屋瓦結構10 之不思圖。太陽能屋瓦結構1G包含有—太陽能面板12,—蓋板玻 螭14,其係設置於太陽能面板12上,以及一底板16。底板16係包 含有-外框18 ’其相緊密夾持之方式包覆太陽能面板12與蓋板 破璃Η。如第1圖所不’若外框18與蓋板玻璃Μ間表面不平整, θ使其視覺效果既不美觀又缺乏變化性。此外,太陽能屋瓦結構1〇 於外框18與蓋板玻璃14間之夾縫處容易堆積塵垢,㈣多的塵垢 曰降低太(¼月匕面板12之光線吸收率,進而影響其光電轉換效率。因 此’如何設計^具有雛美紐與較高光線吸收率之太陽能面板承 載、.’。構即為現今太陽能建材產業所需努力的重要課題。 【新型内容】 物6302 - 本創作係提供一種具有較高光線吸收率以及較佳美觀性與變化 性之太陽能屋瓦結構及其組合,以解決上述之問題。 本創作之申請專利範圍係揭露一種太陽能屋瓦結構,其包含有 一底板,其上係形成有一容置空間,該底板包含有一第一邊框,其 係设置於該容置空間之一側,以及一第二邊框,其係設置於該容置 •空間之另-側。太陽能屋瓦結構另包含有一太陽能面板,其係設置 ^ 於°玄谷置空間内,3亥太陽能面板之一側係實質上對齊於該第一邊框 與該第一邊框,以及一透光玻璃,其係接觸於該底板之該第一邊框 與泫第二邊框以及該太陽能面板之該側,藉以保護該太陽能面板。 本創作之申凊專利範圍另揭露該第一邊框之一侧係設置有一突 出邛,且泫第二邊框之一側係設置有一凹陷部,該突出部與該凹陷 部係為可互相緊密卡合之結構部。 本創作之申請專利範圍另揭露該突出部係為一彈性卡勾,且該 .凹陷部係為與該彈性卡勾相配合之一溝槽。 本創作之申請專利範圍另揭露該底板之該第一邊框係實質上平 行於該第二邊框。 本創作之申請專利範圍另揭露一輔助件,其係設置於該底板之 底側’以及-固定件,其係穿設該透光玻璃、該太陽能面板、以及 5 該底板,該固定件一山, -端係突出於該透光接合於該輔助件,且該固定件之另 且該孔」另揭露該底板之底側係形成有一孔洞’ 之另—端係為可互相緊密卡合之結構部。 本創作之申請專利範圍另 兩端,該糾―_崎咖力m贩件之 n接人/〜專利祀邮揭露—接合件,其係穿設該太陽能面 :八=係分別卡合於該透光玻璃以及該底板内,且該 接合件之蝴㈣_她__之表面。 雨滅=之中明專利範圍另揭露—塾片’其係設置於該接合件之 兩知,雜片係用來加強該接合件之鎖附力。 w之u她®1另揭露-接線盒,其係設置於該底板之 益1傳輸線其兩端係分別電連接於該太陽能面板與該接線盒, 藉以將該域脑板轉叙魏傳駐雜線盒,以及-電池模 組’其係電連接於該接線盒,藉以儲存該接線盒所接收之電能。 本創作之申4專利範ϋ另揭露—種絲結合複數個太陽能面板 之太陽能屋瓦結構組合,其包含有―第—太陽能屋瓦結構,其包含 有第底板’其上係形成有一第一容置空間,該第一底板包含有 :第,框’其係設置於該第—容置空間之—側,以及—第二邊框, 其係没置於該第一容置&門夕里,.咕 之另―側。第—太陽能屋瓦結構另包含 太陽此面板,其係設置於該第一容置空間内’該第-太陽 面板之側係實貝上對齊於該第一邊框與該第二邊框,以及一第 玻璃,其係、接觸於該第—底板之該第—邊框與該第二邊框以 能面板之該側,藉以保護該第-太陽能面板。太陽能 構組β另包含有一第二太陽能屋瓦結構,其係連接於該第一 太“屋瓦結構,該第二太陽能屋瓦結構包含有—第二底板,盆上 置空間,該第二底板包含有-第三邊框,其係設 0置二一一空間之一側’以及一第四邊框,其係設置於該第二 Ζ—側。第二太陽能屋瓦結構另包含有—第二太陽能面 、係㈣_第二容置空_,娜二太陽能 接觸=該第二底板之該第三邊框與該第四邊框以及該第二太陽能面 板之该側,藉以保謹贫筮* ㈣、隶脉Μ 面板。其中當該第二太陽能屋瓦 :構^接於该第-太陽能屋瓦結構時,該第一太陽能屋瓦結構之該 框係與4第二太陽能屋瓦結構之該第四邊框接合。 接於物細麵——_蝴,其係連 接於料-太喊屋瓦結構,該第三搞祕瓦 其上係形成有-第三容置空間,該第三底板包含有一第第: 邊框’其係設置於該第三容置空間之一側以及一第六邊框,其係 M396302 設置於該第三容置空間之另一側。該第三太陽能屋瓦結構另包含有 一第三太陽能面板,其係設置於該第三容置空間内,該第三太陽能 面板之一側係實質上對齊於該第五邊框與該第六邊框,以及一第三 透光玻璃,其係接觸於該第三底板之該第五邊框與該第六邊框以及 該第三太陽能面板之該側,藉以保護該第三太陽能面板。 【實施方式】 請參閱第2圖與第3圖,第2圖為本創作較佳實施例一第一太 陽能屋瓦結構20之元件爆炸示意圖,第3圖為本創作較佳實施例第 一太陽能屋瓦結構20之組立圖。第一太陽能屋瓦結構2〇包含有一 第一底板22,以及一第一太陽能面板24,其係設置於第一底板22 上。第一底板22上係形成有一第一容置空間221,藉以容置第一太 陽能面板24。第一底板22包含有一第一邊框223以及一第二邊框 225。換句話說,第一邊框223與第二邊框225係分別設置於第一容 置空間221之兩側,且第一太陽能面板24之一側係實質上對齊於第 一邊框223與第二邊框225,如此一來第一邊框223與第二邊框225 係可沿第一太陽能面板24之兩侧緊密固定第一太陽能面板24。第 一太陽能屋瓦結構20另包含有一第一透光玻璃26,其係接觸第一 底板22之第一邊框223與第二邊框225以及第一太陽能面板24之 該側’意即第一透光玻璃26係覆蓋於第一底板22與第一太陽能面 板24之上方,藉以保護第一太陽能面板24。此外,第一邊框223 之一側係設置有一第一突出部224,且第二邊框225之一側係設置 M396302 有—第一凹陷部226,第一突出部224與第一凹陷部220係為可互 相緊密卡合之結構部’以使第一太陽能屋瓦結構2〇可沿著一第一方 向D1與其他太陽能屋瓦結構接合以形成太陽能屋瓦結構組合。一 般來說,第一突出部224係可為一彈性卡勾,且第一凹陷部226係 為與第一犬出部224相配合之一溝槽。第一底板22係可為一四方型 結構,故第一底板22之第一邊框223係實質上平行於第二邊框 225,以使第一底板22可沿著第一方向D1與相鄰底板互相接合。 此外,第一太陽能屋瓦結構20另可包含有一輔助件28,其係 設置於第-底板22之細’以及—固定件3G,其係穿設第一透光 玻璃26、第-太陽能面板24、以及第一底板22。固定件3〇之兩端 係分別突出於第-太陽能屋瓦結構2〇之兩端s,意即固定件犯之 -端係突出於第-底板22之表面以緊密接合於輔助件28,藉以加 強固定件3G之鎖附力,且固定件3G之另—端係突出於第—透光玻 璃26之表面。再者,第一底板22之底側係形成有一孔洞227,孔 洞227與固定件3〇之另一端係為可互相緊密卡合之結構部,以使第 -太陽能屋瓦結構20可沿著相異於第_方向m之一第二方向D2 與相鄰屋瓦結構相互接合。第—太陽能屋瓦結構Μ另可包含有一接 合件32,其係穿設第一太陽能面板24。接合件32之兩端係分別卡 合於第一透光玻璃26與第-底板22之内部,意即接合件%之 係不突出於第-透光玻璃26與第—底板22之表面,其係、用來接合 第透f破璃26、第-太陽能面板24、以及第一底板22,以加強 第太陽月b屋瓦結構2〇之穩定性。而輔助件28與固定件μ以及接 9 M396302 3件32係可同時安裝於第一太陽能面板24,藉以加強固定第一透 光玻璃26、第一太陽能面板24、以及第一底板22,或者可選擇性 地配置辅助件28與固定件3〇或接合件32,例如僅配置輔助件Μ 與固定件30或僅配置接合件32,端視實際設計需求而定。除此之 外,第一太陽能屋瓦結構20另可包含有複數個墊片34,其係分別 設置於固定件30與接合件32之兩端,其係用來加強固定件3〇與接 ,件32之鎖附力’以使第—太陽能屋瓦結構2()可承受高強度的外 =壓力’例如風壓、積雪荷重等等。第一太陽能屋瓦結構20另可包 含有一接線盒36,其係設置於第一底板22之底側,一傳輸線38, 其,端係分職連接於第—太陽能面板24與接線盒36,以將第— 太陽能面板24所轉換之電能傳輸至絲盒36,以及—電池模組* 其係電連接於接線盒36,細齡麟盒36所触之電能。 θ參閱第4圖與第5圖’第4圖本創作較佳實施例—太陽能屋 瓦結構組合50之元件爆炸示意圖,第5圖本創作較佳實施例太陽能 ^瓦結構組合5G之組立圖。太陽能屋瓦結構組合%包含有第一太 陽犯屋瓦結構2G、-第二太陽能屋瓦結構⑼、以及—第三太陽能屋 瓦結構70。第二太陽能屋瓦結構6()以及第三太陽能屋瓦結構%係 可為與第-太陽能屋瓦結構20具有相同構造與功能之結構件。如第 4圖所示,第二太陽能屋瓦結構6〇係包含有一第二底板62,盆上係 形成有-第二容置空間62U第二底板62包含有—第三邊框必, ^係設置於第二容置空間621之一側,以及一第四邊框奶,其係 汉置於第一容置空間621之另—側。第二太陽能屋瓦結構㈣另包 M396302 含有-第二太陽能面板64,其係設置於第二容置空間62i内且第 二太陽能錢64之-_實質上對聽第三邊框⑵與第四邊框 625 ’以及-第二透光玻璃66,其係接觸於第二底板62之第三邊框 623與第四邊框625以及第二太陽能而妃以 ^面板64之該側,藉以保護第二 太IW面板64。第三邊框623之一側係形成有一第二突出部似, 其係可為-彈性卡勾’第四邊框奶之一側係形成有一第二凹陷部 626,其係可為與彈性卡勾相配合之一溝槽,且第三邊框奶係實質 上平行於第四邊框625,以使第二突出部_與第二凹陷部626係 為可互相緊密卡合之結構部。因此#第二域能屋瓦結構的沿著第 一方向料接於第-太陽能屋瓦結構料,第—太陽能屋瓦結構 之第-邊框223之第一突出部故係可緊密卡合於第二太陽能屋 瓦結構60之第四邊框625之第二凹陷部_,或第一太陽能屋瓦結 構2〇之第二邊框225之第一凹陷部226可緊密卡合於第二太陽能屋 瓦結構60之第三邊框623之第二突出部624。 此外如第4圖與第5圖所示,第三太陽能屋瓦結構7〇係包含 有-第三底板72 ’其上係形成有—第三容置空間721,且第三底板 72包含有-第五邊框723,其係設置於第三容置空間別之一側, 以及一第六邊框725 ’其係設置於第三容置空間721之另一側。第 陽此屋瓦結構7〇係另包含有—第三太陽能面板74,其係設置 ;第—谷置工間721内’且第三太陽能面板74之一側係實質上對齊 於第五邊框723與第六邊框725,以及-第三透光玻璃76,其係接 觸於第二底板72之第丑邊框瓜與第六邊框725以及第三太陽能面 M396302 板74之該側’藉以保護第三太陽能面板A其中第三底板π之底 側係可形成有-孔洞78,其係絲緊密卡合於第—太陽能屋瓦結構 20之固耕30突出於第—透光玻璃26之表面之另—端,以使第三 太陽能屋瓦結構7G可沿著第二方向料接於第—太陽能屋瓦結構 20。在此實施财,第三太陽能屋瓦結構%係以疊合設置於 -太陽能屋瓦結構20之上表面,以使太陽能屋瓦結構組合%具有 傳統斜式屋瓦結構之樸實外觀。 請參閱第6圖,第6_本創作另—實施例太陽能屋瓦結構組 合50之組立圖。於此實施例中,第二太陽能屋瓦結構的沿著第一 方向Di接合於第一太陽能屋瓦結構2〇之連接方式如上所述,故於 此不再詳述。另一方面而言,當使用者欲沿著第二方向叫妾合第 -太陽能屋瓦結構2G與第三太陽能屋瓦結構%時,第—太陽能屋 瓦結構20與第三太陽能屋瓦結構7G可分觀其相鄰之側表面設置 複數個固料30 ’此時太屋瓦結触合%另可包含有一橋接 件80,橋接件80之兩端係可分別用來連接於設置於第—太陽能屋 瓦結構20上以及設置於第三太陽能屋瓦結構7()上之固定件%,以 使第三太陽魅瓦結構7G可沿著第二方_2接合於第-太陽能屋 二結構2G。如第6圖所示,本實施例與前述實施例相異處在於·本 2例於第三太陽能屋瓦結構7G上表面與第—太陽能屋瓦結構% 接合處係可保持在同一個水平連續面,其一般係可應用於 新式建築之平面屋頂或外牆帷幕。 12 M396302 . 綜上所述,本創作係可依使用者需求沿著第一方向D1與第二 方向D2分別接合第一太陽能屋瓦結構2〇、第二太陽能屋瓦結構 60、與第三太陽能屋瓦結構70,藉以組合成大面積之太陽能屋瓦結 構組合50。此外,以第一太陽能屋瓦結構2〇為例,由於第一太陽 能面板24係設置於第一底板22之第一容置空間221内,且第一透 光玻璃26係覆蓋於第一太陽能面板24與第一底板22之上方,故第 .一透光玻璃26可有效地防止第一太陽能面板24受水氣侵蝕或異物 Φ撞擊而損毀。第一透光玻璃26具有平整之表面,其不但有較佳的美 觀性與變化性,還可絲避免因第—太陽能屋瓦結構2()上堆積過多 的髒污而降低第一太陽能面板24吸收光線之效率。再者,第一太陽 能屋瓦結構20之固定件30與接合件32之設計可用來鎖附第一透光 玻瑪26、第-太陽能面板24、以及第一底板22,以使第一太陽能 屋瓦結構20可符合相關壓力強度規範。舉例來說,第一太陽能屋瓦 結構20可承受約54〇〇帕的風壓與積雪荷重。除此之外,第一太陽 鲁能屋瓦結構2〇之第一突出部224與第一凹陷部226可用來沿著第一 •方向Di接合相鄰之太陽能屋瓦結構,且第—太陽能屋瓦結構之 固定件30與孔洞227可用來沿著第二方向叱接合相鄰之太陽能屋 瓦、、構,其組裝方式係如前所述,故於此不再詳述。 相較於先前技術,本創作之太陽能屋瓦結構係將太陽能面板設 置於底板之容置空間内,再藉由蓋板玻璃覆蓋於太陽能面板與底板 上’以使太陽能屋瓦結構具有平整光滑的上表面。如此一來,本創 作除了具有較佳美觀性與變化性外,其係另可有效地防止太陽能面 13 M396302 ^受水分舰或遭外物撞擊而触,再者餘玻璃之平整表面易於 二洗且可避免塵垢堆積,故本_之太陽能面板可有效地吸收光 能,具有較佳的光電轉換效率。 以上所述僅為本創作之較佳實施例,凡依本創作申請專利範圍 所做之均等變化與修飾,魏屬本_之涵蓋範圍。 【圖式簡單說明】 第1圖為先前技術傳統太陽能屋瓦結構之示意圖。 第2圖為本創作較佳實關第—太陽能屋瓦結構之元件爆炸示意 圖。 第3圖為本創作較佳實施例第一太陽能屋瓦結構之組立圖。 第4圖本創作較佳實施例太陽能屋瓦結構組合之元件爆炸示意圖。 第5圖本創作較佳實施例太陽能屋瓦結構組合之組立圖。 第6圖為本創作另一實施例太陽能屋瓦結構組合之組立圖。 【主要元件符號說明】 10 太陽能屋瓦結構 12 太陽能面板 14 蓋板破螭 16 底板 18 外框 20 第一太陽能屋瓦結 M396302 22 第一底板 221 第一容置空間 223 第一邊框 224 第一突出部 225 第二邊框 226 第一凹陷部 227 孔洞 24 第一太陽能面板 26 第一透光玻璃 28 輔助件 30 固定件 32 接合件 34 墊片 36 接線盒 38 傳輸線 40 電池模組 50 太陽能屋瓦結構組 60 第二太陽能屋瓦結 合 構 62 第二底板 621 第二容置空間 623 第三邊框 624 第二突出部 625 第四邊框 626 第二凹陷部 64 第二太陽能面板 66 第二透光玻璃 70 第三太陽能屋瓦結 72 第三底板 構 * 721 第三容置空間 723 第五邊框 725 第六邊框 74 第三太陽能面板 76 第三透光玻璃 78 孔洞 80 橋接件 15M396302 V. New Description: [New Technology Field] This creation provides a solar roof structure and its combination, especially a solar roof structure with high light absorption rate and relatively bias and variability. ^父合〇', [Prior Art] - Please refer to the figure, i is a prior art, a conventional solar roof tile structure 10 is not considered. The solar tile structure 1G includes a solar panel 12, a cover glass 14, which is disposed on the solar panel 12, and a bottom plate 16. The bottom plate 16 is wrapped with a - outer frame 18' which is in close contact with the solar panel 12 and the cover glass. As shown in Fig. 1, if the surface between the outer frame 18 and the cover glass is not flat, θ makes the visual effect neither aesthetically pleasing nor variability. In addition, the solar roof tile structure 1 is likely to accumulate dust and dirt at the nip between the outer frame 18 and the cover glass 14, and (4) the more dust and dirt are reduced too much (the light absorption rate of the panel 12 is affected by the 1⁄4 month, thereby affecting the photoelectric conversion efficiency thereof. Therefore, 'how to design a solar panel bearing with a young beauty and a high light absorption rate.' is an important task for the current solar building materials industry. [New content] 6302 - This creation provides a A solar wattage structure and a combination thereof that have a higher light absorption rate and a better aesthetics and variability to solve the above problems. The patent application scope of the present invention discloses a solar roof structure comprising a bottom plate on which Forming an accommodating space, the bottom plate includes a first frame disposed on one side of the accommodating space, and a second frame disposed on the other side of the accommodating space. In addition, a solar panel is disposed in the space of the 玄谷, and one side of the 3 ho solar panel is substantially aligned with the first frame and the first And the light-shielding glass is in contact with the first frame and the second frame of the bottom plate and the side of the solar panel, thereby protecting the solar panel. The patent application scope of the present application further discloses the first One side of the frame is provided with a protruding ridge, and one side of the second frame is provided with a recessed portion, and the protruding portion and the recessed portion are structural portions that can be closely engaged with each other. The patent application scope of the present invention further discloses The protruding portion is a resilient hook, and the recess is a groove that cooperates with the elastic hook. The scope of the patent application further discloses that the first frame of the bottom plate is substantially parallel to the The second frame. The patent application scope of the present invention further discloses an auxiliary member disposed on the bottom side of the bottom plate and a fixing member that passes through the light transmissive glass, the solar panel, and the bottom plate. The fixing member is a mountain, the end portion protrudes from the light-transmitting joint to the auxiliary member, and the other end of the fixing member and the hole further exposes the bottom side of the bottom plate to form a hole The structure of the structure. The scope of the patent application for this creation is at the other end. The correction is _ _ 崎 咖 咖 m 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 〜 接合 接合 接合 接合 接合 接合 接合 接合 接合 接合Separately engaged with the light-transmissive glass and the bottom plate, and the surface of the joint member of the joint member (four)____ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ It is known that the moiré is used to strengthen the locking force of the joint member. The other is a junction box, which is disposed on the bottom plate of the Yi 1 transmission line, and the two ends thereof are electrically connected to the solar panel and The junction box is used to transfer the domain brainboard to the Wei transmission station, and the battery module is electrically connected to the junction box to store the power received by the junction box. Fan Wei further discloses that a combination of a plurality of solar panels and a solar roof tile structure includes a “first-solar roof tile structure, which includes a first bottom plate” having a first receiving space formed thereon, the first The bottom plate includes: a frame, which is disposed in the first-accommodating space- And - a second frame, which system is not disposed in the first receiving & Xi door, the cushions of the other - side. The first solar roof tile structure further comprises a solar panel disposed in the first accommodating space, wherein the side of the first solar panel is aligned with the first frame and the second frame, and a first The glass is attached to the first frame of the first bottom plate and the second frame to the side of the energy panel to protect the first solar panel. The solar energy composition β further comprises a second solar roof structure connected to the first too "tile structure", the second solar roof structure comprises a second bottom plate, a basin upper space, the second bottom plate The invention includes a third frame, which is disposed on one side of the space and a fourth frame, which is disposed on the second side. The second solar roof structure further includes a second solar energy Face, system (4) _ second accommodation space _, Na 2 solar contact = the third frame of the second bottom plate and the fourth frame and the side of the second solar panel, so as to keep the poor * (four), Li a pulse panel, wherein the second solar roof tile is configured to be connected to the first solar roof tile structure, the frame of the first solar roof tile structure and the fourth frame of the 4 second solar roof tile structure Engaged in the fine surface of the object - _ butterfly, which is connected to the material - too shouting roof structure, the third engaging secret tile is formed with a - third accommodating space, the third bottom plate contains a first : the frame 'is disposed on one side of the third accommodating space and a sixth border The M396302 is disposed on the other side of the third accommodating space. The third solar tiling structure further includes a third solar panel disposed in the third accommodating space, one of the third solar panels. The side system is substantially aligned with the fifth frame and the sixth frame, and a third light transmissive glass is in contact with the fifth frame of the third bottom plate and the sixth frame and the third solar panel. The third solar panel is protected by the side. [Embodiment] Please refer to FIG. 2 and FIG. 3, and FIG. 2 is a schematic diagram of the explosion of the components of the first solar roof structure 20 according to the preferred embodiment of the present invention, FIG. An assembly diagram of the first solar roof tile structure 20 of the preferred embodiment of the present invention. The first solar roof tile structure 2 includes a first bottom plate 22 and a first solar panel 24 disposed on the first bottom plate 22 The first bottom plate 22 is formed with a first accommodating space 221 for receiving the first solar panel 24. The first bottom plate 22 includes a first frame 223 and a second frame 225. In other words, the first frame 223 And second The frame 225 is disposed on the two sides of the first accommodating space 221, and one side of the first solar panel 24 is substantially aligned with the first frame 223 and the second frame 225, such that the first frame 223 and the second frame The frame 225 can closely fix the first solar panel 24 along the two sides of the first solar panel 24. The first solar tile structure 20 further includes a first transparent glass 26 that contacts the first frame 223 of the first bottom plate 22. The first light-transmissive glass 26 covers the first light-transmissive glass 26 over the first bottom plate 22 and the first solar panel 24, thereby protecting the first solar panel 24. In addition, the first frame 225 and the first light-emitting panel 24 are covered. One side of a frame 223 is provided with a first protrusion 224, and one side of the second frame 225 is provided with a M396302 having a first recess 226, and the first protrusion 224 and the first recess 220 are closely spaced from each other. The snap-in structure is configured such that the first solar tile structure 2 can be joined to other solar tile structures along a first direction D1 to form a solar roof tile structure combination. In general, the first protrusion 224 can be an elastic hook, and the first recess 226 is a groove that cooperates with the first dog outlet 224. The first bottom plate 22 can be a square structure, so the first frame 223 of the first bottom plate 22 is substantially parallel to the second frame 225, so that the first bottom plate 22 can be along the first direction D1 and the adjacent bottom plate. Join each other. In addition, the first solar tile structure 20 may further include an auxiliary member 28 disposed on the thin portion of the first bottom plate 22 and the fixing member 3G, which is disposed through the first transparent glass 26 and the first solar panel 24 . And the first bottom plate 22. The two ends of the fixing member 3 protrude from the two ends s of the first solar solar tile structure 2, respectively, that is, the fixing member commits the end portion protruding from the surface of the first bottom plate 22 to be tightly coupled to the auxiliary member 28, thereby The locking force of the fixing member 3G is strengthened, and the other end of the fixing member 3G protrudes from the surface of the first light-transmitting glass 26. Furthermore, the bottom side of the first bottom plate 22 is formed with a hole 227, and the other end of the hole 227 and the fixing member 3 is a structure that can be closely engaged with each other, so that the first solar roof structure 20 can be along the phase. The second direction D2, which is different from the first direction ι, is joined to the adjacent roof structure. The first solar roof tile structure may further include a joint member 32 that passes through the first solar panel 24. The two ends of the engaging member 32 are respectively engaged with the first light-transmitting glass 26 and the first bottom plate 22, that is, the joint member % does not protrude from the surface of the first light-transmitting glass 26 and the first bottom plate 22, The system is used to join the first through-glass 26, the first solar panel 24, and the first bottom plate 22 to enhance the stability of the solar sun b roof structure. The auxiliary member 28 and the fixing member μ and the 9 M396302 3 member 32 can be simultaneously mounted on the first solar panel 24, thereby reinforcing and fixing the first transparent glass 26, the first solar panel 24, and the first bottom plate 22, or The auxiliary member 28 and the fixing member 3 or the engaging member 32 are selectively disposed, for example, only the auxiliary member Μ and the fixing member 30 or only the engaging member 32 are disposed, depending on actual design requirements. In addition, the first solar roof structure 20 may further include a plurality of spacers 34 respectively disposed at the two ends of the fixing member 30 and the engaging member 32 for reinforcing the fixing member 3 and the joint. The lock of the member 32 is such that the first solar roof structure 2 can withstand high strength external pressures such as wind pressure, snow load, and the like. The first solar tile structure 20 may further include a junction box 36 disposed on the bottom side of the first bottom plate 22, a transmission line 38, and the end portion is connected to the first solar panel 24 and the junction box 36, The electrical energy converted by the first solar panel 24 is transmitted to the wire box 36, and the battery module* is electrically connected to the junction box 36, and the electrical energy touched by the casket 36. θ Referring to Fig. 4 and Fig. 5' Fig. 4, a preferred embodiment of the present invention, a schematic diagram of the explosion of components of the solar roof structure combination 50, and Fig. 5 is a diagram of the assembly of the solar photovoltaic structure combination 5G of the preferred embodiment. The solar roof tile structure combination includes a first solar gang structure 2G, a second solar roof structure (9), and a third solar roof structure 70. The second solar roof structure 6 () and the third solar roof structure % may be structural members having the same structure and function as the first solar roof structure 20. As shown in FIG. 4, the second solar roof tile structure 6 includes a second bottom plate 62, and the basin is formed with a second receiving space 62U. The second bottom plate 62 includes a third frame. One side of the second accommodating space 621 and a fourth frame of milk are placed on the other side of the first accommodating space 621. The second solar roof tile structure (4) further includes M396302 comprising a second solar panel 64 disposed in the second housing space 62i and the second solar money 64--substantially listening to the third frame (2) and the fourth border The second light-transmissive glass 66 is in contact with the third frame 623 and the fourth frame 625 of the second bottom plate 62 and the second solar energy to the side of the panel 64, thereby protecting the second too IW panel. 64. One side of the third frame 623 is formed with a second protrusion, which may be a flexible hook. The fourth frame of the fourth frame is formed with a second recess 626, which may be associated with the elastic hook. One groove is matched, and the third frame milk system is substantially parallel to the fourth frame 625 such that the second protrusion _ and the second recess 626 are structural portions that can be closely engaged with each other. Therefore, the second domain of the second domain can be connected to the first solar tile structure material along the first direction, and the first protrusion of the first frame 223 of the first solar tile structure can be closely engaged with the first The second recess _ of the fourth frame 625 of the second solar tile structure 60, or the first recess 226 of the second frame 225 of the first solar tile structure 2 can be tightly engaged with the second solar tile structure 60 The second protrusion 624 of the third frame 623. In addition, as shown in FIG. 4 and FIG. 5, the third solar roof structure 7 includes a third bottom plate 72' having a third accommodating space 721 formed thereon, and the third bottom plate 72 includes - The fifth frame 723 is disposed on one side of the third accommodating space, and a sixth frame 725 ′ is disposed on the other side of the third accommodating space 721. The third solar panel 74 is further provided with a third solar panel 74, which is disposed in the first valley chamber 721 and one side of the third solar panel 74 is substantially aligned with the fifth frame 723. And the sixth frame 725, and the third light transmissive glass 76 is in contact with the ugly frame melon and the sixth frame 725 of the second bottom plate 72 and the side of the third solar panel M396302 board 74 to protect the third solar energy The bottom side of the third bottom plate π of the panel A may be formed with a hole 78, and the tether 30 closely engaging the first solar roof structure 20 protrudes from the other end of the surface of the first light-transmitting glass 26 So that the third solar roof structure 7G can be connected to the first solar roof structure 20 along the second direction. In this implementation, the third solar roof tile structure is superposed on the upper surface of the solar roof tile structure 20 so that the solar roof tile structure combination has the simple appearance of the conventional inclined roof tile structure. Please refer to Fig. 6, the sixth set of the solar photovoltaic roof structure combination 50. In this embodiment, the connection manner of the second solar roof tile structure to the first solar roof tile structure 2 along the first direction Di is as described above, and thus will not be described in detail. On the other hand, when the user wants to call the second solar-powered roof structure 2G and the third solar roof structure % along the second direction, the first solar roof structure 20 and the third solar roof structure 7G The plurality of solid materials 30 may be disposed on the adjacent side surfaces thereof. At this time, the Tektronix junction may also include a bridge member 80. The two ends of the bridge member 80 may be respectively connected to the first portion. The solar roof tile structure 20 and the fixing member % disposed on the third solar roof tile structure 7 (), so that the third sun charm tile structure 7G can be joined to the second solar house structure 2G along the second side_2 . As shown in Fig. 6, the difference between the present embodiment and the foregoing embodiment is that the upper surface of the third solar roof tile structure 7G and the first solar roof tile structure can be kept at the same level continuously. It is generally applied to the flat roof or exterior curtain of a new building. 12 M396302. In summary, the creation system can respectively join the first solar roof structure 2, the second solar roof structure 60, and the third solar energy in the first direction D1 and the second direction D2 according to user requirements. The roof tile structure 70 is combined to form a large area solar roof tile structure combination 50. In addition, the first solar panel 24 is disposed in the first accommodating space 221 of the first bottom plate 22, and the first transparent glass 26 is covered by the first solar panel. 24 and above the first bottom plate 22, the first transparent glass 26 can effectively prevent the first solar panel 24 from being damaged by moisture attack or foreign matter Φ impact. The first light transmissive glass 26 has a flat surface, which not only has better aesthetics and variability, but also prevents the first solar panel 24 from being lowered due to excessive accumulation of dirt on the first solar tile structure 2 (). The efficiency of absorbing light. Furthermore, the design of the fixing member 30 and the engaging member 32 of the first solar roof structure 20 can be used to lock the first light-transmissive glass 26, the first solar panel 24, and the first bottom plate 22 to make the first solar house The tile structure 20 can conform to the relevant pressure strength specifications. For example, the first solar roof tile structure 20 can withstand wind pressures and snow loads of about 54 kPa. In addition, the first protrusion 224 and the first recess 226 of the first solar luen roof structure can be used to join adjacent solar roof structures along the first direction Di, and the first solar roof tile The structural fixing member 30 and the hole 227 can be used to join adjacent solar roof tiles in a second direction, and the assembly manner is as described above, and thus will not be described in detail herein. Compared with the prior art, the solar tile structure of the present invention places the solar panel in the accommodating space of the bottom plate and covers the solar panel and the bottom plate by the cover glass to make the solar roof tile structure smooth and smooth. Upper surface. In this way, in addition to the better aesthetics and variability, the creation can effectively prevent the solar surface 13 M396302 from being hit by the moisture ship or being hit by foreign objects, and the flat surface of the remaining glass is easy to be washed twice. Moreover, the dust accumulation can be avoided, so the solar panel of the present invention can effectively absorb light energy and has better photoelectric conversion efficiency. The above is only the preferred embodiment of the present invention, and the equivalent changes and modifications made by the scope of the patent application of this creation are covered by Wei. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a conventional solar roof tile structure of the prior art. The second picture is a schematic diagram of the component explosion of the solar-powered roof structure. Figure 3 is a block diagram of the first solar roof tile structure of the preferred embodiment of the present invention. Fig. 4 is a schematic view showing the explosion of components of the solar roof tile structure combination of the preferred embodiment of the present invention. Figure 5 is a block diagram of a preferred embodiment of a solar roof tile structure. Figure 6 is a block diagram of a solar roof tile structure combination of another embodiment of the present invention. [Main component symbol description] 10 Solar roof structure 12 Solar panel 14 Cover broken 16 Floor 18 Outside frame 20 First solar roof knot M396302 22 First bottom plate 221 First accommodation space 223 First frame 224 First protruding Portion 225 second frame 226 first recessed portion 227 hole 24 first solar panel 26 first light transmissive glass 28 auxiliary member 30 fixing member 32 joint member 34 spacer 36 junction box 38 transmission line 40 battery module 50 solar roof tile structure group 60 second solar roof tile structure 62 second bottom plate 621 second accommodating space 623 third frame 624 second protrusion 625 fourth frame 626 second recess portion 64 second solar panel 66 second light transmissive glass 70 third Solar roof tile 72 third floor structure* 721 third accommodating space 723 fifth frame 725 sixth frame 74 third solar panel 76 third light transmissive glass 78 hole 80 bridge 15