M415943 五、新型說明: 【新型所屬之技術領域】 ^本創作是有關於-種_物或大棚’且_是有__種 陽能電池而可防蟲的透光建築物與透明大棚。 、 【先前技術】 ^眾多_代能軸再生能源的技射,料陽能電池(_「 ⑶丨丨)最㈣目。主⑽岐太可直接耻陽能轉 程中不會產生二氧化碳或氮化物等有害物f,不會對環‘ 電 時若外加㈣電職料厂生—觀能_存形態,此 動。、一、财提供電絲使電路或裝置進行驅 層適於受総磁自齡軸哪伏 場使電子與電洞會分別往兩層移動 接面獅成的内 8#芒““㊉一 —.··產生—種電能的儲存形態, 【新型内容】. 能電===;=效其於頂部配有輪 電池 = =太^括建築體及至少—薄膜太陽能 膜太陽能魏㈣、I電舰置於賴體_部。薄 在本創作之—實祐㈣,t膜太^電池而傳遞至建築體的内部。 能電池,JL至少—_太 ^ —_太_電池為透光型的太陽 在本創作之一實為建築體的頂部。 1建藥體包括果菜批發市場或農業大棚。 M415943 在本創作之一實施例中’透光建築物,更包括至少一發光二極體 光源,配置於建築物的頂部並提供照射於建築物内部的照明光束,至少 一薄膜太陽能電池與至少一發光二極體光源電性連接,且至少一薄膜 太陽能電池所轉換的電能可供至少一發光二極體光源使用。 在本創作之一實施例中,發光二極體光源所提供的照明光束包括 有紅光、橙光或黃光。 在本創作之一實施例中,發光二極體光源所提供的照明光束不包 括有紫光或紫外光。 本創作另提出一種具有薄膜太陽能電池的透明大棚,其包括棚 架,頂棚及至少一薄膜太陽能電池。頂棚設於棚架上並定義出容置空 間。薄膜太陽能電池配置於棚架的頂棚,且薄膜太陽能電池會吸收綠 光、藍光及紫外光並轉換為電能。紅光、橙光、黃光及紅外光會通過 至少薄膜太陽能電池而傳遞至容置空間。 在本創作之一實施例中,至少一薄膜太陽能電池可作為頂棚的一 部份。 在本創作之-實施例中,透明大棚更包括至少一發光二極體光源, 配置於頂棚並提供照射於容置空間⑽到光束^細太陽能電池與 發光二極體光源·連接,且_太陽能電池所轉換的電能可供發光 二極體光源使用。 在本創作之-實施例中,至少一薄膜太陽能電池為透光型的太 能電池。 基於上述’本創作之透光建築师由將細太陽能電池配置於建 ”體的頂。卩’以使光線照射於建築物的頂部時,薄膜太陽能電池可吸 3光li光及紫外光之類波長範圍的光線,並可將這些波長範圍的 ^線轉換為電能,以供電於透光建築物。另外,由於紅光、撥光黃 =紅外光之類的波長範_光線會通過薄膜太陽能電池 染體的内部,因此,可供透光建築物之室内照明之用。 由於…、射於賴體㈣的光朗細太陽能電池會魏紫光或紫 M4L5943 外光之緣故,從而可減少蚊蟲聚集於建築體内部的情況。換士之,透 ==除I:有效提升其内部之照明亮度及色度外,並具ί有效防 2蚊蟲進人的優點。糾,本辦亦提供上述齡的透明大 ^本_之上雜徵和優麟更__,下讀舉實施例, 並配&所附圖式作詳細說明如下。 【實施方式】 圖1為本創作-實施例之透光建築物的示意圖。請參考圖i,本 r2rmrio〇包括一建築體110及至少—薄膜太陽能電池 具有頂部112 ’且薄膜太陽能電池120配置於建築 、=4體而言’本實施例之_太陽能電池120的主 要特敛在於§光線L1照射於建築物⑽的頂部112時,位於 η =膜太陽能電池12〇會吸收綠光、藍光及紫外光之類波長範圍的光 線1亚可將這些波長範圍的光線u轉換為電能。另外,紅光、橙 ίοΐίΤ外光之軸波長範圍的光線U則會通過_太陽能電池 120而傳遞至建築體11〇的内部,如圖]所示。換言之,在本實施例 =f太陽能電池12Q可為—觀光翻太陽能電池,其中紅光、 紅外切爾長細的光線u適於通過_太陽能電 '大、藍光及紫外光之類波長範圍的光線u則適於被薄膜 太陽此電池120吸收利用或反射。 細細例中,上述的建築體110可以是果菜批發市場或農業大 —般傳統的果菜批發市占地面積大聽易造成其 内抑較陰暗,且果菜批發市場通常是使用-般燈泡進行照明,因此 限,如此會使菜販在算錢時容易算錯錢或者是在 巧W的真偽亦較為不便(因照明亮度不佳)。此外,由於果菜批發市 tit般的燈泡進行照明,而蚊蟲容易往紫光或紫外光之類的波 長轉’耻這也造《菜㈣市場上料有許多蚊蟲。 5 M415943 基於上述,若果菜批發市場採用本實施例所提供之概念時,意即 將建築體m(例如:果菜·市場)的頂部112配置上述透光型的薄 膜太陽能電池彳20 ’則於白糾候便可利用部分波段會通過透光型之 薄膜太陽能電池120之光線L1作為建築體彳1()内部照明之用,且由 於照射於建築體110内部的光線u因薄膜太陽能電池彳2()會吸收紫 光或紫外光之緣故,從而可減少蚊蟲聚集於建築體彳1〇内部的情況。 換β之,若果菜批發市場採用本實施例之概念除了可有效提升市場内 之照明亮度及色度以改善傳統市場内照明度不佳的情況外,並具有有 效防止蚊蟲進入的優點。 、 在本實施例中,透光建築物1〇0更可具有至少一發光二極體光源 130,配置於建築物no的頂部112並提供照射於建築物11〇内部的照 月光束132 ’如圖1所示。具體而言,本實施例之發光二極體光源13〇 主要是用來取代傳統的燈泡,如此除了可有效地節省電量外,亦因本 實施例之發光二極體光源130所提供之照明光束132之波長並不包括 有紫光或紫外光之波段,從而可避免蚊蟲進入建築體彳1〇内部的機 會。在一實施例中,發光二極體光源130所提供的照明光束132之波 長範圍可包括有紅光、橙光或黃光之波段。 另外,上述的薄膜太陽能電池12〇與發光二極體光源13〇電性連 接’因此’薄膜太陽能電池12〇所轉換的電能便可供發光二極體光源 130使用。詳細而言,若於白天的情況下,建築體内部的照明可以取 用穿透薄膜太陽能電池之光線L1 ;若於陰天或晚上之類光線不足的情 況下,則建築體110内的照明則可使用發光二極體光源13〇進行= 明,而提供發光二極體光源130的電力除了可採用一般室電外亦;^ 使用薄膜太陽能電池12〇於平日所儲存的電能,從而節省電力的使 用’並具有郎能省碳之功效。 值得一提的是,在透光建築物1〇〇中,建築验的頂部可為透光材 質,而薄膜太陽能電池則是配置於頂部上,如圖1所示。 圖2為本創作另一實施例之透光建築物的示意圖。請同時參考圖 M415943 1與圖2,透光建築物200與透光建築物所採用的概念相似,惟 二者在結構上不同的地方在於,透光建築物2〇〇之建築體11〇的頂部 112是直接採用上述的薄膜太陽能電池12〇作為其頂部,如圖2所示。 換言之,薄膜太陽能電池120是作為建築體11〇本身的一部份,即薄 膜太陽能電池120整合於建築體m内,並作為建築體彻本身的頂 部 112 〇 基於上述’由於透光建築物2⑻與透祕築物⑽所採用的概念 相似,因此透光建築物200同樣具有上述透光建築物彻所提及的優 點,在此便不再贅述。 鲁圖3為本創作再一實施例之透明大棚的示意圖。請參考圖3,透 明大棚300包括棚架310,頂棚32〇及至少一薄膜太陽能電池33〇。 頂棚320設於棚架310上並定義出容置空間S1,如圖3所示。薄膜 太陽能電池330配置於棚架310的頂棚32〇上。具體而言,本實施例 之薄膜太陽能電池330的主要特徵在於當光線口照射於棚頂32〇時, 位於棚頂320的薄膜太陽能電、池330會吸收綠光、藍光及紫外光之類 波長範圍的光線L1,並可將這些波長範圍的光線u轉換為電能。另 外,紅光、橙光、黃光及紅外光之類的波長範圍的光線u則會通過薄 膜太陽能電池330而傳遞至容置空間si ’如圖3所示。換言之,在本 鲁實^例中,溥膜太知能電池330可為一種透光型的太陽能電池,其中 紅光、橙光、黃光及紅外光之類的波長範圍的光線L1適於通過薄膜太 陽能電池330 ’而綠光'藍光及紫外光之類波長範圍的光線匕]則適於 被薄膜太陽能電池330吸收利用或反射。 在本實施例中,上述的透明大棚3〇〇可以應用於果菜批發市場或 農業大棚。具體而言,若果菜批發市場採用本實施例所提供之概念時, 意即將透明大棚300之棚頂320配置有上述透光型的薄膜太陽能電池 330,則於白天時候便可利用部分波段會通過透光型之薄膜太陽能電池 330之光線L1作為透明大棚3〇〇内部(即容置空間S1)照明之用,且 由於照射於透明大棚300内部的光線L1因薄膜太陽能電池330會吸 7 M415943 收紫光或紫外光之緣故,從而可減少蚊蟲聚集於透明大棚3〇〇内部的 情況。換S之,若果菜批發市場採用本實施例之概念除了可提升市場 内之照明亮度及色度以改善傳統市場峨明度不佳的情況外,並可具 有防止蚊蟲進入的優點。 在本實施例中,透明大棚300更可具有至少一發光二極體光源340, 配置於棚頂320並提供照射於容置空間S1内的照明光束342。具體 而言,本實施例之發光二極體光源340主要是用來取代傳統的燈泡, 如此除了可料、f 4外’亦目本實酬之發光二極縣源34Q所提供 之照明光束342之波長並不包括有紫光或料光,從而可避免蚊蟲進 入容置空間si的機會。在—實施例中,發光二極體光源34〇所提供 的照明光束342之波長範圍可包括有紅光、橙光或黃光。 另外,上述的薄膜太陽能電池33〇與發光二極體光源34〇電性連 接’因此,薄膜太陽能電池330所轉換的電能便可供發光二極體光源 340使用。詳細而言,若於白天的情況下,透明大棚3〇〇内部的照明 可以取用穿透薄膜太陽能電池330之光線L1 ;若於陰天或晚上之類光 線不足的情況下,則透明大棚300 _照_可使歸光二極體光源 340進行照明’而&供發光二極體光源340的電力除了可採用一般室 電外’亦可使用薄膜太陽能電池330平日所儲存的電能,從 力的使用,而具有節能省碳之功效。 值得一提的是,在透明大棚300中,棚頂32〇可為透光材質,而 薄膜太陽能電池330則是配置於棚頂32〇上,如圖3所示。在另一未 繪示的實施例中,薄膜太陽能電池330柯作為頂棚32〇的一部份, 意即薄膜太陽能電池作為透明大棚300之棚頂320,而棚架31〇支撐 此薄膜太陽能電池330。 a 綜上所述’本創作之透光建築物至少具有下列優點。首先,薄膜 太陽能電池配置於建築體的頂部,當光線照射於建築物的頂部時薄 膜太陽能電池可吸收綠光、藍光及紫外光之驗絲_光線,並可 將這些波長範圍的光線轉換為電能,以供電於透光建築物。另外由 M4L5943M415943 V. New description: [New technical field] ^This creation is about - kind of _ thing or greenhouse _ and _ is a light-transmitting building and transparent greenhouse with __ kinds of solar cells. [Prior Art] ^Many _ generation energy regenerative energy technology, material Yang energy battery (_ "(3) 丨丨) most (four). The main (10) 岐 太 can directly produce no carbon dioxide or nitrogen in the shame energy transfer Hazardous substances such as compounds, will not be added to the ring's electricity. (4) Electric materials factory - view energy _ deposit form, this move. First, the supply of wire to make the circuit or device for the drive layer is suitable for the magnetic The volt field of the self-aged axis causes the electrons and the hole to move to the two layers to connect the lion into the inner 8# awning "11-..·produce" - the storage form of electric energy, [new content]. ==;=The effect is equipped with a round battery at the top == too ^including the building body and at least - thin film solar film solar Wei (four), I electric ship placed in the Lai body _ Department. Thin in this creation - Shiyou (four), t The film is transferred to the inside of the building by the battery. The battery, JL at least — _ too ^ — _ too _ battery is a light-transmissive sun in the creation of one of the top of the building. 1 The drug body includes fruit and vegetables Wholesale market or agricultural greenhouse. M415943 In one embodiment of the present invention, the light-transmitting building further includes at least one light-emitting diode light. Configuring at the top of the building and providing an illumination beam that illuminates the interior of the building, at least one thin film solar cell is electrically connected to the at least one light emitting diode light source, and at least one thin film solar cell converts the electrical energy for at least one illumination In one embodiment of the present invention, the illumination beam provided by the LED source includes red, orange or yellow light. In one embodiment of the present invention, the LED source is The illumination beam provided does not include violet or ultraviolet light. The present invention also proposes a transparent greenhouse with a thin film solar cell, which comprises a scaffolding, a ceiling and at least one thin film solar cell. The ceiling is arranged on the scaffolding and defines the accommodation. Space. Thin film solar cells are placed in the ceiling of the scaffold, and the thin film solar cells absorb green, blue and ultraviolet light and convert them into electrical energy. Red, orange, yellow and infrared light are transmitted to at least the thin film solar cell. Having a space. In one embodiment of the present invention, at least one thin film solar cell can be used as part of the ceiling. In an embodiment, the transparent greenhouse further includes at least one light-emitting diode light source disposed on the ceiling and provided for illuminating the accommodating space (10) to the light-emitting solar cell and the light-emitting diode light source, and the solar cell The converted electric energy can be used for the light emitting diode light source. In the present invention, at least one thin film solar cell is a light transmissive solar cell. Based on the above-mentioned light transmissive architect, the thin solar cell is used. The top of the body is configured.卩 'When the light is applied to the top of the building, the thin film solar cell can absorb light in the wavelength range of 3 light and ultraviolet light, and can convert the wavelength of these wavelength ranges into electric energy to supply light. building. In addition, since the wavelength of the red light, the yellow light, the infrared light, etc., will pass through the inside of the thin film solar cell, it can be used for indoor lighting of light-transmitting buildings. Because of the fact that the light-emitting solar cells that are incident on the body (4) will be Wei Ziguang or purple M4L5943, it can reduce the accumulation of mosquitoes inside the building. For the change of the driver, pass == except I: effectively improve the brightness and chromaticity of the interior, and it has the advantage of effectively preventing mosquitoes from entering. Correction, the Office also provides the transparency of the above-mentioned ages _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ [Embodiment] FIG. 1 is a schematic view of a light-transmitting building of the present invention. Referring to FIG. 1 , the r2rmrio includes a building body 110 and at least the thin film solar cell has a top portion 112 ′ and the thin film solar cell 120 is disposed in the building, and the body of the solar cell 120 is the main feature of the present embodiment. When the light L1 is irradiated on the top 112 of the building (10), the light in the wavelength range of η = film solar cell 12 吸收 absorbs green light, blue light and ultraviolet light can convert the light u of these wavelength ranges into electric energy. . In addition, the light U in the wavelength range of the red light, orange ίοΐίΤ external light is transmitted to the inside of the building body 11 through the solar cell 120, as shown in the figure. In other words, in this embodiment, the solar cell 12Q can be a solar cell, wherein the red light and the infrared ray are suitable for passing light of a wavelength range such as 'solar power', blue light, and ultraviolet light. u is suitable for being absorbed or reflected by the thin film solar cell 120. In the detailed example, the above-mentioned building body 110 may be a fruit and vegetable wholesale market or a large-scale traditional fruit and vegetable wholesale market in the country, which may cause a darker inside, and the fruit and vegetable wholesale market usually uses a light bulb for illumination. Therefore, this limit will make it easier for the vegetable seller to miscalculate the money when calculating the money or the inaccuracy of the skill (due to poor lighting). In addition, due to the light bulbs of the fruit and vegetable wholesale market, the mosquitoes are easy to turn to the wavelengths such as purple light or ultraviolet light. This also creates a lot of mosquitoes on the market. 5 M415943 Based on the above, if the fruit and vegetable wholesale market adopts the concept provided by the embodiment, it is intended that the top 112 of the building body m (for example, fruit and vegetable market) is provided with the above-mentioned light-transmitting thin film solar cell 20' It is possible to use part of the band to pass the light L1 of the light-transmissive thin film solar cell 120 as the internal illumination of the building body 1 (), and since the light illuminating the inside of the building body 110 is due to the thin film solar cell 彳 2 () It will absorb the purple light or ultraviolet light, which can reduce the accumulation of mosquitoes inside the building. In the case of β, if the fruit and vegetable wholesale market adopts the concept of the present embodiment, in addition to effectively improving the brightness and chromaticity of the lighting in the market to improve the poor illumination in the conventional market, it has the advantage of effectively preventing mosquitoes from entering. In this embodiment, the light-transmitting building 100 can further have at least one light-emitting diode light source 130 disposed at the top 112 of the building no and providing a luminous beam 132 ′ that is illuminated inside the building 11〇. Figure 1 shows. Specifically, the light-emitting diode light source 13 of the present embodiment is mainly used to replace the conventional light bulb, so that in addition to effectively saving power, the illumination beam provided by the light-emitting diode light source 130 of the embodiment is also provided. The wavelength of 132 does not include the band of violet or ultraviolet light, thus avoiding the chance of mosquitoes entering the interior of the building. In one embodiment, the range of wavelengths of the illumination beam 132 provided by the LED source 130 can include a band of red, orange, or yellow light. Further, the thin film solar cell 12A described above is electrically connected to the light emitting diode light source 13 so that the electric energy converted by the thin film solar cell 12 is used for the light emitting diode light source 130. In detail, in the case of daylight, the illumination inside the building body can use the light L1 penetrating the thin film solar cell; if the light is insufficient in a cloudy day or at night, the illumination in the building body 110 is The light-emitting diode light source 13 can be used for illuminating, and the power for providing the light-emitting diode light source 130 can be used in addition to the general room power; ^ using the thin film solar cell 12 to store the electrical energy stored on weekdays, thereby saving power. Use 'and have the effect of Lang can save carbon. It is worth mentioning that in the light-transmitting building, the top of the building inspection can be light-transmissive, while the thin-film solar cell is placed on the top, as shown in Figure 1. 2 is a schematic view of a light-transmitting building of another embodiment of the present invention. Please refer to FIG. M415943 1 and FIG. 2 at the same time, the transparent building 200 is similar to the concept adopted by the light-transmitting building, but the structural difference between the two is that the building of the light-transmitting building is 11〇 The top 112 is directly used as the top of the thin film solar cell 12 上述 as shown in FIG. 2 . In other words, the thin film solar cell 120 is part of the building body 11 itself, that is, the thin film solar cell 120 is integrated into the building body m, and serves as the top 112 of the building body itself based on the above-mentioned 'light transmission building 2 (8) and The concept adopted by the secret structure (10) is similar, and therefore the light-transmitting building 200 also has the advantages mentioned above for the light-transmitting structure, and will not be described again here. Lutu 3 is a schematic view of a transparent greenhouse of another embodiment of the present invention. Referring to Figure 3, the transparent greenhouse 300 includes a scaffold 310, a ceiling 32, and at least one thin film solar cell 33A. The ceiling 320 is disposed on the scaffolding 310 and defines an accommodation space S1, as shown in FIG. The thin film solar cell 330 is disposed on the ceiling 32 of the scaffolding 310. Specifically, the main feature of the thin film solar cell 330 of the present embodiment is that when the light port is irradiated on the roof 32, the thin film solar power and the pool 330 located at the ceiling 320 absorb wavelengths such as green light, blue light, and ultraviolet light. The range of light L1 and the conversion of light u in these wavelength ranges into electrical energy. In addition, light rays of a wavelength range such as red light, orange light, yellow light, and infrared light are transmitted to the accommodation space si' through the thin film solar cell 330 as shown in Fig. 3. In other words, in the present example, the enamel film battery 330 can be a light-transmitting type solar cell in which light L1 of a wavelength range such as red light, orange light, yellow light, and infrared light is suitable for passing through the film. The solar cell 330' and the green light 'light ray in the wavelength range such as blue light and ultraviolet light' are suitable for absorption or reflection by the thin film solar cell 330. In the present embodiment, the above-mentioned transparent greenhouse can be applied to a fruit and vegetable wholesale market or an agricultural greenhouse. Specifically, if the fruit and vegetable wholesale market adopts the concept provided by the embodiment, it means that the light-transmissive thin film solar cell 330 is disposed on the roof 320 of the transparent greenhouse 300, and part of the wavelength band can be passed during the daytime. The light L1 of the light-transmissive thin film solar cell 330 is used for illumination inside the transparent greenhouse 3 (ie, the accommodation space S1), and since the light L1 irradiated inside the transparent greenhouse 300 is sucked by the thin film solar cell 330, 7 M415943 The reason of purple light or ultraviolet light can reduce the accumulation of mosquitoes inside the transparent greenhouse. In the case of S, if the fruit market wholesale market adopts the concept of the present embodiment, in addition to improving the brightness and chromaticity of the lighting in the market to improve the poor visibility of the traditional market, it may have the advantage of preventing mosquitoes from entering. In this embodiment, the transparent greenhouse 300 further has at least one light emitting diode light source 340 disposed on the ceiling 320 and providing an illumination beam 342 that is illuminated in the receiving space S1. Specifically, the light-emitting diode light source 340 of the present embodiment is mainly used to replace the conventional light bulb, so that in addition to the material, the light beam 342 provided by the light source of the dipole county source 34Q The wavelength does not include violet or light, which avoids the chance of mosquitoes entering the accommodation space si. In an embodiment, the range of wavelengths of the illumination beam 342 provided by the LED source 34 can include red, orange or yellow light. Further, the above thin film solar cell 33A is electrically connected to the light emitting diode light source 34. Therefore, the electric energy converted by the thin film solar cell 330 can be used by the light emitting diode light source 340. In detail, in the case of daylight, the illumination inside the transparent greenhouse can take the light L1 penetrating the thin film solar cell 330; if the light is insufficient in a cloudy day or at night, the transparent greenhouse 300 _Photo_Environmental diode source 340 can be illuminated 'and' for the power of the LED source 340 can be used in addition to the general room electricity can also use the thin film solar cell 330 stored on weekdays, from the force Use, but with energy saving and carbon saving effect. It is worth mentioning that in the transparent greenhouse 300, the roof 32 〇 can be a light-transmitting material, and the thin film solar battery 330 is disposed on the roof 32 ,, as shown in FIG. 3 . In another embodiment, not shown, the thin film solar cell 330 is used as part of the ceiling 32, meaning that the thin film solar cell is used as the roof 320 of the transparent greenhouse 300, and the scaffold 31 supports the thin film solar cell 330. . a In summary, the light-transmitting building of the present invention has at least the following advantages. First, a thin film solar cell is placed on the top of the building. When the light is shining on the top of the building, the thin film solar cell can absorb the green light, blue light and ultraviolet light, and can convert the light in these wavelength ranges into electric energy. To supply electricity to light-transmitting buildings. Also by M4L5943
光检光男光及紅外光之類的波長範圍的光線會通過薄膜太陽 此電池而傳遞至建築體的⑽,因此,可供透光建築物之室内照明之 用。=外,由於照射於建築體内部的光線因薄膜太陽能電池會吸收紫 光或紫外光之緣故,從而可減少蚊蟲聚集於建築體内部的情況。換^ 之,本實麵之透光賴物之結構除了可有效提升其㈣之照明亮& 及色度外’並具有有效防止蚊蟲進入的優點。此外,本創 種採用上述概念的透明大棚。 棱供― 雖然本創作已以實酬揭露如上,然其並相以限定本創作 何所屬技術領域巾具有通常知識者,在*脫離本創作之精神和The light in the wavelength range of the light-detecting male light and the infrared light is transmitted to the building body through the thin film solar cell (10), so that it can be used for indoor lighting of the light-transmitting building. In addition, since the light that is incident on the inside of the building is absorbed by the thin-film solar cell, it absorbs violet or ultraviolet light, thereby reducing the accumulation of mosquitoes inside the building. In addition, the structure of the transparent light-receiving material of the solid surface can effectively improve the illumination of the (4) and the chromaticity and the advantage of effectively preventing mosquitoes from entering. In addition, this invention uses a transparent greenhouse with the above concept.棱 Supply - Although this creation has been disclosed as a real reward, but it is limited to the definition of the creation of the technical field of the towel has the usual knowledge, in the spirit of the creation and
内,當可作些許之更動顏飾,故本創作之保魏圍當視 專利範圍所界定者為准。 之申5月 【圖式簡單說明】 圖1為本創作一實施例之透光建築物的示意圖。 圖2為本創作另一實施例之透光建築物的示意圖。 圖3為本創作再一實施例之透明大棚的示意圖。 【主要元件符號說明】 100、200 :透光建築物 110 建築體 120 薄膜太陽能電池 112 頂部 132 照明光束 130 發光二極體光源 300 透明大棚 310 棚架 320 頂棚 330 薄膜太陽能電池 340 發光二極體光源 M415943 S1 :容置空間 L1 :光線In the meantime, when some changes can be made, the definition of the patent is defined by the scope of the patent.申申五月 [Simplified illustration of the drawings] Fig. 1 is a schematic view of a light-transmitting building according to an embodiment of the invention. 2 is a schematic view of a light-transmitting building of another embodiment of the present invention. FIG. 3 is a schematic view of a transparent greenhouse according to still another embodiment of the present invention. [Main component symbol description] 100, 200: light-transmitting building 110 building body 120 thin film solar cell 112 top 132 illumination beam 130 light-emitting diode light source 300 transparent greenhouse 310 scaffolding 320 ceiling 330 thin film solar cell 340 light-emitting diode light source M415943 S1 : accommodating space L1 : light