M429758 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種導光裝置,特別是一種具有導光膜片 之導光裝置。 【先前技術】M429758 V. New description: [New technical field] The present invention relates to a light guiding device, in particular to a light guiding device with a light guiding film. [Prior Art]
習知導光裝置具有多種態樣,例如平板、百葉窗或薄 膜,其係位於或鄰近一房間之窗戶,用以將該房間外之陽 光導入該房間,使得陽光被導向以照射該房間内位於天花 板之一反射物。接著,陽光被該反射物反射,且作為室内 照明或輔助照明。此外,在某些習知導光裝置中,陽光不 需被位於天花板之反射物反射即可直接被導入該房間。 該習知導光裝置能利用折射及/或反射將直射及漫射的 陽光導至位於天花板之反射物,以均勻地照亮該房間内 以減)令人不適的眩光。此外,纟白天使用習知導光 裝置可節省照明設備所用的能量。 此外’習知導光裝置如何能快速安裝、方便拆卸、穩定 α又置等μ利於運用各種窗型式(如:窗戶、落地窗、氣 窗等)上,亦係為業界努力之追求方向。 ' 有鑑於此,有必要提供一種創新且富進步性的導光裝 置’以解決上述問題。 、 【新型内容】 本創作係提供—料光裝置 至少-固接模組。該導光膜片 面及複數個微結構,該第—表 ’其包括至少一導光膜片及 具有一第一表面、一第二表 面係相對應該第二表面,該 I58713.doc M429758 等微結構係位於該第一表面。兮田pm 农囬这固接杈組係用以固接該導 光膜片,以有效地限制該導弁晅ΰ你甘 — 〆等九膜片使其固定於一預設範圍 内。 在-實施例中,該固接模組係、包括—第—透光板及一黏 接元件,該導光膜片係透過該黏接元件黏接於該第一透光 板0 在-實施例中,該固接模組係、包括—透光片材組,該透 光片材組具有-夾層空間,該導光膜片係夾設於該爽層空 間内。 在-實施例中’該固接模組包括一第一框架,該第一框 架係用以固接該導光膜片。 在-實施例中,更包括至少―重力件,該重力件係固接 於該導光膜片之底邊,使該導光膜片平整。 —在一實施例中,該固接模組更包括一透光板、一快拆固 定機構及一框架,該快拆固定機構包含一第一固定件、一 第一固定件及一分別連接該第一固定件及該第二固定件之 連接件,其中,該導光膜片係固接於該透光板上,該第一 固定件係固接於該透光板上,該第二固定件係固接於該框 架。 在一實施例中,更包括一外圍框架,而該固接模組更包 括至V —别夾框及一後夾框,該前失框及該後夾框夾設該 導光膜片,並固接於該外圍框架之中。 在本創作中,該導光膜片能將入射光接近水平地導入一 房間,以避免眩光。比外,該固接模組係固接該導光膜 1587l3.doc -4- M429758 片’以有效地限制該導光膜片使其固定於一預設範圍内。 【實施方式】 參考圖1 ’顯示本創作導光裝置之一實施例中之導光膜 片之立體示意圖。該導光膜片11具有一第一表面^1、一 第二表面112及複數個微結構12。該第二表面112相對於該 第一表面111。該等微結構12係位於該第一表面111上,且 包括一第一结構面121及一第二結構面122。該第二結構面 1 22係位於該第一結構面12 1之上方。在本實施例中,該等 微結構12之縱向剖面大致呈三角形,且該第一結構面12丄 與該第二結構面122相交。而於其它實施例中,該等微結 構12之縱向剖面可呈其它形狀,如四邊形或五邊形以上。 本實施例t,該導光膜片11之材料係與該等微結構〖2之 材料相同。該導光膜片11及該等微結構12係以可透光材料 製成’例如t甲基丙稀酸甲g旨(p〇iymethyl Methacrylate, PMMA)、丙缔酸基高分子(Arcylic-based Polymer)、聚碳 酸醋(Polycarbonate,PC)、聚對苯二甲酸乙二酯(P〇lyethyleneConventional light guiding devices have various aspects, such as a flat panel, a blind or a film, which is located in or adjacent to a window of a room for introducing sunlight outside the room into the room, so that the sunlight is directed to illuminate the ceiling in the room. One of the reflectors. The sunlight is then reflected by the reflector and acts as an indoor or auxiliary illumination. In addition, in some conventional light guiding devices, sunlight can be directly introduced into the room without being reflected by the reflectors located at the ceiling. The conventional light directing device utilizes refraction and/or reflection to direct direct and diffuse sunlight to the reflector on the ceiling to evenly illuminate the room to reduce uncomfortable glare. In addition, the use of conventional light guides during the day saves energy used in lighting equipment. In addition, the conventional light guiding device can be quickly installed, easily disassembled, and stabilized. The use of various window types (such as windows, floor-to-ceiling windows, air windows, etc.) is also the pursuit of the industry. In view of this, it is necessary to provide an innovative and progressive light guiding device to solve the above problems. [New content] This creation department provides - light equipment at least - fixed module. The light guide film surface and the plurality of microstructures, the first table includes at least one light guiding film and has a first surface, and a second surface corresponding to the second surface, the microstructure of the I58713.doc M429758 Is located on the first surface. Putian pm Agricultural Back This fixed 杈 group is used to fix the light guide film to effectively limit the guide 弁晅ΰ 甘 〆 九 九 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 固定 。 。 。 。 。 。 。 In the embodiment, the fixing module includes a first light-transmitting plate and a bonding component, and the light-guiding film is adhered to the first light-transmitting plate through the bonding component. For example, the fixing module comprises a light-transmissive sheet group, and the light-transmissive sheet group has a sandwich space, and the light guiding film is sandwiched in the refreshing space. In the embodiment, the fixing module includes a first frame for fixing the light guiding film. In an embodiment, the method further includes at least a gravity member fixed to a bottom edge of the light guiding film to flatten the light guiding film. In an embodiment, the fixing module further includes a light transmissive plate, a quick release fixing mechanism and a frame, the quick release fixing mechanism comprises a first fixing member, a first fixing member and a connecting piece respectively a first fixing member and a connecting member of the second fixing member, wherein the light guiding film is fixed to the light shielding plate, and the first fixing member is fixed to the light shielding plate, the second fixing The piece is fixed to the frame. In an embodiment, the fixing module further includes a V-shaped frame and a rear frame, wherein the front frame and the rear frame sandwich the light guiding film, and Secured in the peripheral frame. In the present creation, the light guiding film can introduce incident light into a room close to the horizontal to avoid glare. In addition, the fixing module fixes the light guiding film 1587l3.doc -4- M429758 to effectively restrain the light guiding film from being fixed within a predetermined range. [Embodiment] A perspective view of a light guiding film in an embodiment of the present light guiding device is shown with reference to Fig. 1'. The light guiding film 11 has a first surface ^1, a second surface 112 and a plurality of microstructures 12. The second surface 112 is opposite the first surface 111. The microstructures 12 are located on the first surface 111 and include a first structural surface 121 and a second structural surface 122. The second structural surface 22 is located above the first structural surface 12 1 . In the present embodiment, the longitudinal cross-sections of the microstructures 12 are substantially triangular, and the first structural surface 12A intersects the second structural surface 122. In other embodiments, the longitudinal cross-section of the microstructures 12 can take other shapes, such as a quadrilateral or a pentagon. In the embodiment t, the material of the light guiding film 11 is the same as the material of the microstructures [2]. The light guiding film 11 and the microstructures 12 are made of a light transmissive material, such as p〇iymethyl Methacrylate (PMMA) or a propionate based polymer (Arcylic-based). Polymer), Polycarbonate (PC), Polyethylene terephthalate (P〇lyethylene)
Terephthalate,PET)、聚苯乙浠(p〇iyStyrene,PS)或其共聚 物(Copolymer),且其折射率介於丨.35至l65。可以理解的 是’該導光膜片11之材料也可不同於該等微結構12之材 料。而於其它實施例中,該導光膜片丨丨之材料係與該等微 結構12之材料亦可為不相同,且其折射率可介於2丨〜2 6之 間。 在本實施例中’該導光膜片11係可透過至少一固接模 組,固接於窗組上,複數個入射光束30可為房間外之陽 158713.doc M429758 光,且複數個輸出光束31可為進入該房間内之陽光。如圖 1所示,該等微結構12係可將該等入射光束3〇朝上偏折成 該等輸出光束31。該等入射光束3〇透過折射由該等微結構 12之第二結構面122進入該等微結構12,且被該等微結構 12之第一結構面121反射。接著,被反射之該等入射光束 3 0通過該導光膜片u變成該等輸出光束31。 如圖1A所示,該輸出光束31及該導光膜片u間之角度係 定義為一輸出角度Θ3。當該輸出光束(亦即,該輪出^束 3U)係向下且平行於該導光膜片_,該輸出角度h係定 義為0度。當該輸出光束(亦即’該輸出光束312)係為水平 且平行於-參考面3〇3時’該輸出角度_定義為9〇度。 當該輸出光束(亦即,該輸出光束313)係向上且 光膜片11時,該輸出角度❸3係定義為180度。其中該參考 面30a係定義為一垂直於該第一表面i"或該第二表面⑴ 之假想面。 該入射光束30及該參考面3〇a間之角度係定義為一入射 角度θ4°#該人射光㈣㈣下時,該人射角度θ4係定義 為正值。當該入射光束(圖中未示)係為水平且平行於該參 考面3〇a時,該入射角度_定義為〇度,且當該入射光二 (圖中未示)係向上時,該人射角度h錢義為負值。 ^斤不。亥等入射光束30透過折射由該微結構12之 第-結構面122進人該微結構12,且被該微結構^之第一 結構面121反射。接著’被反射之該等入射光束30通過該 導光膜片11變成該等輪出光束31。要特別注意的是,由於 158713.doc M429758 第一結構面121及第二結構面122間之特殊夾角設計,該等 入射光束30被該第一表面121反射。 在本實施例中,該等入射光束30之入射角度04係介於30 度至60度之間’且该等輸出光束31於輸出角度03為85度至 120度間之總能量係大於該等輸出光束31於輸出角度03為〇 度至180度間之總能量之40%。 參考圖2 ’顯示本創作導光裝置之一實施例之立體示意 圖。該導光裝置la包括至少一導光膜片^及至少一固接模 組’該固接模組係用以固接該導光膜片i丨。在本實施例 中,該導光膜片11係與圖1所示之導光膜片i i相同。該固 接模組係包含一第一透光板14及一黏接元件丨3,而該黏接 元件13係位於該導光膜片丨丨之該等微結構丨2與該第一透光 板14之間,換言之,該導光膜片u之該第一表面lu該係 透過該黏接元件13黏接於該第一透光板14。 參考圖3,顯示本創作導光裝置之另一實施例之立體示 意圖。該導光裝置lb包括至少一導光膜片n及至少一固接 模組,該固接模組係用以固接該導光膜片u。在本實施例 中’ s亥導光膜片11係與圖i所示之導光膜片i (相同。該固 接模、.且係包a -第-透光板丄4及—黏接元件! 3,且該黏接 元件i3係位於該導光膜片u之該第二表面μ與該第一透 光板14之間,換言之,料光膜片u之該第二表面ιΐ2該 係透過該黏接元件13黏接於該第—透光板14。纟中,該第 二表面112可為一平滑面,亦可為曲面或粗糙面。 參考圖4,顯示本創作導光裝置之另一實施例之立體示 158713.doc 叫9758 思圖。該導光裝置lc包括至少一導光膜片U及至少一固接 模組,該固接模組係用以固接該導光膜片i j。在本實施例 中’該導光膜片π係與圖1所示之導光膜片η相同。該固 接模組係包含一黏接元件13、一第一透光板丨4及一第二透 光板15。該導光膜片11係夾設於該第一透光板丨々及該第二 透光板15之間,且透過該黏接元件13將該導光膜片u黏接 於該第一透光板14。另外,其他實施例中,係可透過該黏 接元件13將該導光膜片U黏接於該第二透光板15。 參考圖5及圖5a’其中圖5顯示本創作導光裝置之另一實 知例之立體分解示意圖,圖5a顯示圖5之導光裝置之組合 後之局部示思圖。該導光裝置Id包括至少一導光膜片及 至少一固接模組,該固接模組係用以固接該導光膜片11。 在本實施例中,該導光膜片11係與圖丨所示之導光膜片J J 相同〇該固接模組包括一黏接元件13、一第一透光板14及 一第二透光板15,其中,該第一透光板14及該第二透光板 15具有可撓曲性質。該導光膜片丨丨係夾設於該第一透光板 14及該第二透光板15之間,且該黏接元件13係環繞該導光 膜片11之該第一表面111及該第二表面n2之周邊,以點接 於該第一透光板14及該第二透光板15。 而關於本發明所提及的第一透光板14、第二透光板15或 其它述及的透光板之材質可為玻璃或壓克力,亦可為其它 塑膠板材。而黏接元件13可為黏膠、UV固化膠或雙面 膠,但並不以此為限,舉凡習知業界可使用具有透光性質 之透光板或可黏接物件之黏接元件,皆屬於本發明所述透 1587l3.doc -8- M429758 光板及黏接元件之範#。 參考圖6及圖6a,其中圖6顯示本創作導光裝置之另一實 施例之立體分解示意圖,圖6a顯示圖6導光裝置之立體組 合示意圖。該導光裝置le包括至少一導光膜片1丨及至少一 固接模組,該固接模組係用以固接該導光膜片丨丨。在本實 施例中,該導光膜片11係與圖1所示之導光膜片丨丨相同。 該固接模組包括至少一透光板16、複數個快拆固定機構i 7 及一框架1 8。該導光膜片11係固接(如:黏貼或夾設)於該 透光板16上。較佳地’該透光板16之材質係為玻璃或壓克 力。每一該等快拆固定機構17係包括一第一固定件171、 一連接件172及一第二固定件173。該第一固定件171係固 接於該透光板16上,該第二固定件173係可固接於該框架 18(或其它物件)上,且該連接件172係分別連接該第一固定 件171及該第二固定件173,其中以本實施例而言,該連接 件172係可拆卸地設置於該第二固定件173,而於其它實施 例中’亦可拆卸地設置於該第一固定件丨71。 該快拆固定機構17更包含至少一固定件(圖未示),該連 接件172具有至少一第一孔洞1721,而該第一固定件或該 第二固定件具有相對應該第一孔洞1721之至少一第二孔洞 1 73 1,藉由該固定件固定於該第一孔洞丨72丨及該第二孔洞 1731中’以將該導光膜片u及該透光板16固接於該框架 上。其中,該固定件可為鎖固件、卡固件、鉚接件、炫接 件或楔形連接件,但並不以此為限。 參考圖7,顯示本創作導光裝置之另一實施例之立體示 1587l3.doc M429758 意圖。該導光裝置If包括至少一導光膜片11及至少一固接 模組,該固接模組係用以固接該導光膜片11。在本實施例 中,該導光膜片11係與圖1所示之導光膜片11相同。該固 接模組包括一透光片材組19,該透光片材組19之材質可具 有軟質或彈性。該透光片材組19具有一夾層空間191,該 導光膜片11係夾設於該夾層空間191内。 較佳地’該固接模組更包括一重力件192,其係夾設於 該透光片材組19之末端。此外,該固接模組更包括一轉動 軸199,該透光片材組19可捲遶於該轉動軸199上 以此實施例而言,透光片材組19可包括二片材 該透光片材組19可為 19a,19b,此外,於其它實施例中, 單一片材(圖未示)’而以似U形方式呈現出該夾層空間 而該透光片材組19可為單片、 成。 二片材、或多片材方式所構Terephthalate (PET), polystyrene (PS) or its copolymer (Copolymer), and its refractive index is between 丨35 and 165. It will be understood that the material of the light guiding film 11 may also be different from the material of the microstructures 12. In other embodiments, the material of the light guiding film and the material of the microstructures 12 may be different, and the refractive index may be between 2 丨 and 2 6 . In this embodiment, the light guiding film 11 can be fixed to the window group through at least one fixing module, and the plurality of incident light beams 30 can be 158713.doc M429758 light outside the room, and the plurality of outputs Light beam 31 can be the sunlight that enters the room. As shown in Figure 1, the microstructures 12 are capable of deflecting the incident beams 3 to the output beams 31. The incident beams 3 〇 are refracted by the second structural faces 122 of the microstructures 12 into the microstructures 12 and are reflected by the first structural faces 121 of the microstructures 12. Then, the reflected incident light beams 30 are converted into the output light beams 31 through the light guiding film u. As shown in Fig. 1A, the angle between the output beam 31 and the light guiding film u is defined as an output angle Θ3. When the output beam (i.e., the wheel beam 3U) is downward and parallel to the light guiding film _, the output angle h is defined as 0 degrees. When the output beam (i.e., the output beam 312) is horizontal and parallel to the -reference plane 3〇3, the output angle _ is defined as 9 degrees. When the output beam (i.e., the output beam 313) is directed upward and the diaphragm 11, the output angle ❸3 is defined as 180 degrees. Wherein the reference surface 30a is defined as an imaginary plane perpendicular to the first surface i" or the second surface (1). The angle between the incident beam 30 and the reference plane 3a is defined as an incident angle θ4°#. When the person emits light (4) (4), the human angle θ4 is defined as a positive value. When the incident beam (not shown) is horizontal and parallel to the reference plane 3〇a, the incident angle _ is defined as a twist, and when the incident light II (not shown) is upward, the person The angle of shot h is negative. ^ Jin does not. The incident beam 30, such as the ray, enters the microstructure 12 through the first structural surface 122 of the microstructure 12 and is reflected by the first structural surface 121 of the microstructure. The incident light beams 30, which are then reflected, pass through the light guiding film 11 to become the rounded light beams 31. It is to be noted that the incident beam 30 is reflected by the first surface 121 due to the special angular design between the first structural face 121 and the second structural face 122 of 158713.doc M429758. In this embodiment, the incident angles 04 of the incident beams 30 are between 30 degrees and 60 degrees and the total energy of the output beams 31 between 85 degrees and 120 degrees at the output angle 03 is greater than The output beam 31 is at an output angle 03 of 40% of the total energy between turns and 180 degrees. Referring to Fig. 2', a perspective view of an embodiment of the present light guiding device is shown. The light guiding device 1a includes at least one light guiding film and at least one fixing module. The fixing module is used for fixing the light guiding film. In the present embodiment, the light guiding film 11 is the same as the light guiding film i i shown in Fig. 1. The fixing module comprises a first transparent plate 14 and a bonding component 丨3, and the bonding component 13 is located on the microstructure 丨2 of the light guiding film 丨丨 and the first light transmission Between the plates 14 , in other words, the first surface lu of the light guiding film u is adhered to the first transparent plate 14 through the bonding member 13 . Referring to Fig. 3, there is shown a perspective view of another embodiment of the present light guiding device. The light guiding device lb includes at least one light guiding film n and at least one fixing module, and the fixing module is used for fixing the light guiding film u. In the present embodiment, the light guide film 11 is the same as the light guide film i shown in FIG. 1 (the same. The fixed mold, the package a - the first light-transmissive plate 4 and the - bonding) 3, and the bonding element i3 is located between the second surface μ of the light guiding film u and the first transparent plate 14, in other words, the second surface ι2 of the light film u The second surface 112 can be a smooth surface or a curved surface or a rough surface. Referring to FIG. 4, the light guiding device of the present invention is shown. The illuminating device lc includes at least one light guiding film U and at least one fixing module for fixing the light guiding film. In the present embodiment, the light guiding film π is the same as the light guiding film η shown in Fig. 1. The fixing module comprises a bonding member 13 and a first transparent plate 丨4. And a second light-transmitting plate 15. The light-guiding film 11 is interposed between the first light-transmissive plate 丨々 and the second light-transmitting plate 15 and the light-guiding film is transmitted through the bonding member 13 The sheet u is adhered to the first light transmissive plate 14. In other embodiments, the light guiding film U can be adhered to the second light transmitting plate 15 through the bonding member 13. Referring to FIG. 5 and FIG. 5a, FIG. 5 shows the light guide of the present invention. FIG. 5a is a partial schematic view showing the combination of the light guiding device of FIG. 5. The light guiding device Id includes at least one light guiding film and at least one fixing module. The fixing module is used to fix the light guiding film 11. In the embodiment, the light guiding film 11 is the same as the light guiding film JJ shown in the figure, and the fixing module includes a The first light-transmissive plate 14 and the second light-transmissive plate 15 have flexible properties. The light-guiding film 丨The 丨 is interposed between the first transparent plate 14 and the second transparent plate 15 , and the bonding component 13 surrounds the first surface 111 and the second surface n2 of the light guiding film 11 The periphery is connected to the first light-transmitting plate 14 and the second light-transmitting plate 15. The first light-transmissive plate 14, the second light-transmitting plate 15 or other light-transmitting materials mentioned in the present invention. board The material can be glass or acrylic, or other plastic sheets. The bonding element 13 can be adhesive, UV-curable or double-sided adhesive, but it is not limited to this. The optical property of the light-transmitting plate or the adhesive component of the adhesive-attachable article belongs to the invention of the 1587l3.doc -8-M429758 light plate and the bonding component of the invention. Referring to FIG. 6 and FIG. 6a, FIG. 6 shows FIG. 6a is a perspective exploded view of another embodiment of the light guiding device of the present invention, and FIG. 6a shows a three-dimensional combination of the light guiding device of FIG. 6. The light guiding device le includes at least one light guiding film 1 and at least one fixing module. The fixing module is configured to fix the light guiding film sheet. In the present embodiment, the light guiding film 11 is the same as the light guiding film sheet shown in Fig. 1. The fixing module comprises at least one light transmissive plate 16 , a plurality of quick release fixing mechanisms i 7 and a frame 18 . The light guiding film 11 is fixed (e.g., pasted or interposed) on the light transmitting plate 16. Preferably, the material of the light-transmitting plate 16 is glass or acrylic. Each of the quick release fixing mechanisms 17 includes a first fixing member 171, a connecting member 172 and a second fixing member 173. The first fixing member 171 is fixed to the light-transmitting plate 16, and the second fixing member 173 is fixed to the frame 18 (or other objects), and the connecting member 172 is respectively connected to the first fixing member. The member 171 and the second fixing member 173 are detachably disposed on the second fixing member 173 in the embodiment, and are detachably disposed in the other embodiment. A fixing member 71. The quick release fixing mechanism 17 further includes at least one fixing member (not shown), the connecting member 172 has at least one first hole 1721, and the first fixing member or the second fixing member has a corresponding first hole 1721 At least one second hole 173 1 is fixed in the first hole 丨 72 丨 and the second hole 1731 by the fixing member to fix the light guiding film u and the light transmitting plate 16 to the frame on. The fixing member may be a fastener, a fastener, a rivet, a splicing connector or a wedge connector, but is not limited thereto. Referring to Figure 7, there is shown a perspective view of another embodiment of the present light guiding device 1587l3.doc M429758. The light guiding device If includes at least one light guiding film 11 and at least one fixing module, and the fixing module is used for fixing the light guiding film 11 . In the present embodiment, the light guiding film 11 is the same as the light guiding film 11 shown in Fig. 1. The fixing module comprises a light transmissive sheet set 19, and the material of the light transmissive sheet set 19 can be soft or elastic. The light-transmissive sheet group 19 has a sandwich space 191, and the light-guiding film sheet 11 is interposed in the sandwich space 191. Preferably, the fixing module further includes a gravity member 192 which is sandwiched at the end of the light transmissive sheet group 19. In addition, the fixing module further includes a rotating shaft 199, and the transparent sheet group 19 can be wound on the rotating shaft 199. In this embodiment, the transparent sheet group 19 can include two sheets. The light sheet group 19 may be 19a, 19b. Further, in other embodiments, a single sheet (not shown) may present the interlayer space in a U-like manner and the light transmissive sheet group 19 may be a single sheet. Film, into. Two-piece or multi-sheet construction
此外, 片材,如 此為限。 參考圖8及圖8a,其中圖8顯示 不本創作導光裝置之另一實In addition, the sheet is limited to this. Referring to FIG. 8 and FIG. 8a, FIG. 8 shows another embodiment of the light guiding device not being created.
1587 丨 3.doc •10· 1V1^9758 例中’該導光膜片11係與圖1所示之導光膜片11相同。該 固接模組更包括一第二框架20b,其中,該第一框架20a包 括—第一前固定條201、一第二前固定條202、一第三前固 定條203、一第四前固定條204,而該第二框架20b包括一 第一後固定條205、一第二後固定條206、一第三後固定條 2〇7及一第四後固定條2〇8。該第一前固定條2〇1及該第一 後固定條205係互相配合以夾持該導光膜片11之一端,該 • 第一前固定條202及該第二後固定條206係互相配合以夾持 該導光膜片11之一端,該第三前固定條203及該第三後固 疋條207係互相配合以夾持該導光膜片丨丨之一端,該第四 則固定條204及該第四後固定條208係互相配合以夾持該導 光膜片11之一端。 該第一框架2〇a具有複數個第一孔洞200a(或該第一前固 定條201、該第二前固定條2〇2、該第三前固定條2〇3、或 該第四前固定條2〇4具有至少一第一孔洞200a),而該第二 % 框架20b具有複數個第二孔洞200b(或該第一後固定條 2〇5、該第二後固定條2〇6、該第三後固定條2〇7、或該第 四後固定條2〇8具有至少一第二孔洞2〇〇b),且該等第一孔 洞2〇〇a係對應該等第二孔洞200b(或該第一孔洞200a係對 應该第二孔洞2〇〇b)。而該固定件(圖未示)設置於該第一孔 洞200a及該第二孔洞200b中,以將該導光膜片丨丨夾設於第 一框架2〇a與第二框架20b之間或各固定條之間(如:該第 一則固定條2〇1與該第一後固定條2〇5)。其中,該固定件 可為鎖固件、卡固件、鉚接件、熔接件或楔形連接件,但 I58713.doc -11 - M429758 並不以此為限。 參考圖9及圖9a,其中圖9顯示本創作導光裝置之另一實 施例之組合方式示意圖,圖9a顯示本創作導光裝置之另一 實施例之立體組合示意圖。該導光裝置1 h包括至少一導光 膜片11及至少一固接模組,該固接模組係用以固接該導光 膜片11。該固接模組包括一第一框架211及至少一固定件 (圖未示),該第一框架211係用以固接該導光膜片11,更進 一步說,該固定件係將該導光膜片11固接於該第一框架 2 11上。在本實施例中,該導光膜片11係與圖1所示之導光 膜片11相同。該固接模組更包括一第二框架212。該導光 裝置lh之組合方式如下所述,首先’利用複數個鉤件213 鉤住該導光膜片1丨之四側(於其它實施例中亦可採用夹 件),且向四側朝外移動一適當距離以均勻拉緊該導光膜 片11。接著,且利用一固定件(圖未示),如黏膠,將該導 光膜片11黏接於該第一框架211及該第二框架212上,使得 該導光膜片11位於兩框架211及2 12之間。亦即,該導光膜 片Π係夾設於該第一框架211及該第二框架212之間。接 著,沿著該第一框架211及該第二框架212之外緣裁掉位於 該第一框架211及該第二框架212外緣之外之部分導光膜片 11 ’以製得如圖9a所示之該導光裝置lh。 參考圖10至圖l〇b,顯示本創作導光裝置之另一實施例 之組合方式示意圖。該導光装置π包括至少—導光膜片u 及至少一固接模組,該固接模組係用以固接該導光膜片 11。该固接模組包括一第一框架22及至少—固定件,該第 1587l3.doc M429758 一框架22係用以固接該導光膜片11,更進一步說,該固定 件係將該導光膜片11固接於該第一框架22上。在本實施例 中,該導光膜片11係與圖1所示之導光膜片11相同。該導 光裝置li之組合方式如下所述,首先,參考圖1〇,將該導 光膜片11拉平。接著,參考圖l〇a,將該導光膜片11蓋住 該第一框架22。接著,參考圖l〇b,將該導光膜片11之外 緣延伸至蓋住該第一框架22之外周壁上,且該等固定件係 穿入該導光膜片11之外緣部分及該第一框架22之外周壁 上,以將該導光膜片1丨固設於該第一框架上22,以製得該 導光裝置1 i。其中,該固定件可為釘針23。於其它實施例 中,除可設置於該第一框架22之外周壁上,亦可設置於該 第一框架22之其它表面上。 參考圖11至圖11 c ’顯示本創作導光裝置之另一實施例 之組合方式示意圖。該導光裝置lj包括至少一導光膜片U 及至少一固接模組,該固接模組係用以固接該導光膜片 11。該固接模組包括一第一框架241及至少一固定件,該 第一框架241係用以固接該導光膜片n,更進一步說,該 固定件係將該導光膜片11固接於該第一框架241上。在本 實施例中’該導光膜片11係與圖1所示之導光膜片丨丨相 同。該導光裝置lj之組合方式如下所述,首先,參考圖 11 ’提供該導光膜片11及該第一框架241,其中該固接模 組更包括一第二框架242,該第一框架241及該第二框架 242具有複數個凹凸結構243(如圖llc)。接著,參考圖 11 a,將該第一框架241及該第二框架242夹持該導光膜片 158713.doc -13- M429758 11 ’該第一框架241及該第二框架242之該等凹凸結構243 係貫質貼合於該導光膜片11,其中該等凹凸結構243可直 接貼於該導光膜片11上’或者,於其它實施例中,該等凹 凸結構243及該導光膜片1丨之間更具一或多其它薄形元 件。 接著’參考圖1 lc ’該固定件係為一c形夾持元件25,套 设該C形夾持元件25於該第一框架24 1及該第二框架242 上’以固定住該第一框架241及該第二框架242。較佳地, 該C形夾持元件25係為彈性材質。 本實施例透過該等凹凸結構243,可易於夾持該導光膜 片11,更佳的,如圖11 c,該第一框架24i之該等凹凸結構 243面對該第二框架242之該等凹凸結構243,且兩者間之 該等凹凸結構243係呈互補對應。 參考圖12及圖12a,其中圖12顯示本創作導光裝置之另 一貫施例之立體分解示意圖’圖l2a顯示圖12導光裝置之 立體組合示意圖。該導光裝置lk包括至少一導光膜片丨丨及 至少一固接模組,該固接模組係用以固接該至少一導光膜 片Π °該固接模組包括一外圍框架26,該導光膜片丨i係固 接於s亥外圍框架26之中。在本實施例令,該導光膜片i i係 與圖1所示之導光膜片丨丨相同。該固接模組更包括至少一 則夾框27及至少一後夹框28,該前夾框27及該後夾框28夾 没該至少一導光膜片11,並固接於該外圍框架26之中。該 則夾框27包含複數個第一組十字分隔板271,該後夹框28 包含複數個第二組十字分隔板28 1,該第一組十字分隔板 158713.doc -14· M429758 271係與該第 二组十字分隔相科痛 丁刀細板28 1對應設置,以形成複數個 窗格單元2 61。 而該導光膜之數目可為複數個,每—該導光膜片n 係可分別設置於各個窗格單元26卜較佳地,肖固接模組 更包括至少一透光片材(圖未示),其係夾設於該導光膜片 11與該前夾框27或該後夾框28之間。該透光片材係為玻 璃、壓克力或絹紙。 參考圖13至圖13b,其中圖13顯示本創作導光裝置之另 一貫施例之立體分解示意圖,圖13a顯示圖I]導光裝置之 立體組合不意圖,圖13b顯示圖13a之局部剖視示意圖。該 導光裝置lm包括至少一導光膜片u及至少一固接模組該 固接模組係用以固接該導光膜片11。該固接模組包括一框 架2 9 ’ β玄導光膜片11係固接於該框架2 9。在本實施例中, 該導光膜片11係與圖1所示之導光膜片11相同。該框架29 包括一第一邊框291、一第二邊框292、一第三邊框293及 一第四邊框294。該第一邊框291具有一第一卡槽2911,該 第二邊框292具有一第二卡槽2921,該第三邊框293具有一 第三卡槽2931,該第四邊框294具有一第四卡槽2941。該 固接模組更包括二透光板32,33、至少一重力件341、至少 二第二固定條342、至少二第三固定條343及至二第四固定 條344 »以本實施例而言’該重力件34 1係固接於該導光膜 片11之一底邊111 a(該導光膜片11係會直立放置),且卡合 於該第一卡槽2911 »而由於該重力件341設置於該導光膜 片11之該底邊111a’將使該導光膜片11具有平整效果(拉 158713.doc • 15· M429758 平)。 該等第二固定條342夾設該導光膜片11之側邊112a,且 卡合於該第二卡槽2921。該等第三固定條343夾設該導光 膜片11之頂邊113,且卡合於該第三卡槽2931 »該等第四 固定條344夾設該導光膜片11之另一侧邊114,且卡合於該 第四卡槽2941。透過該等固定條342、343及344,夾設該 導光膜片11,將使該導光膜片11具有平整效果。 該框架29及該導光膜片11組合後,再夾設於該二透光板 32,33之間。在本實施例中,該框架29係利用一黏接元件 35黏接於該二透光板32,33之中,且該二透光板32,33再利 用一結構膠36而彼此黏接,亦即該結構膠36係環繞該框架 29 〇 參考圖14至圖14b,其中圖14顯示本創作導光裝置之另 一實施例之立體分解示意圖,圖14a顯示圖14導光裝置之 立體組合示意圖,圖14b顯示圖14導光裝置之側邊固定機 構示意圖。該導光裝置In包括至少一導光膜片丨丨及至少一 固接模組,該固接模組係用以固接該導光膜片丨丨。該固接 模組包括一第一框架37,該第一框架37係用以固接該導光 膜片11。在本實施例中,該導光膜片j i係與圖1所示之導 光膜片π相同,固接(如:黏貼或夾設)於一透光板38上, 而該透光板38之材質係為玻璃或壓克力。 該固接模組更包括一上端固定機構39、一下端固定機構 4〇及複數個側邊固定機構41 ^該上端固定機構39及該下端 固定機構40係分別固設於該第一框架37之一上端及—下 158713.doc -16- M429758 端’且該上端固定機構39係對應該下端固定機構4〇,且該 上端固定機構39及該下端固定機構4〇皆具有一相對應之弧 狀外觀。而該等側邊固定機構41係固接於第一框架37之側 邊。 參考圖14b,該側邊固定機構41具有一固定部411及一轉 動部412。該轉動部412係樞接於該固定部411,且具有一 凹槽413。參考圖Ma,該透光板38及該導光膜片丨丨係設置 (如.插设)於該等側邊固定機構4丨之該轉動部4丨2之兩凹槽 413中,且其上端及下端係分別被該上端固定機構39及該 下端固定機構40所侷限住,而該導光膜片丨丨實質呈該弧狀 外觀。較佳地,該上端固定機構39及該下端固定機構4〇具 有一相對應之擋止部391,401,以侷限住該透光板38及該 導光膜片11之上端及下端。可以理解的是,該擋止部 391,401也可以是凹槽型式或構槽。 參考圖15至圖15b,其中圖15顯示本創作導光裝置之另 一貫施例之立體分解示意圖’圖l5a顯示圖15導光裝置之 立體組合示意圖,圖15b顯示圖i5a之局部放大示意圖。該 導光裝置lp包括至少一導光膜片u及至少一固接模組,該 固接模組係用以固接該導光膜片丨丨。該固接模組包括一第 一框架42及至少一固定件,該第一框架42係用以固接該導 光膜片11,更進一步說,該固定件係將該導光膜片丨i固接 於該第一框架42上。在本實施例中,該導光膜片丨丨係與圖 1所不之導光膜片11相同,且其固接(如:黏貼或夾設)於一 透光板43上,該透光板43之材質係為玻璃或壓克力。 158713.doc -17· M429758 該固定件包括至少一上扣件44、至少一下扣件45。該下 扣件45係壓制該第一框架42之一端及該導光膜片1丨及/或 該透光板43。該上扣件44係扣住該第一框架42之該端及該 下扣件45。 參考圖16及圖16a’其中圖16顯示本創作導光裝置之另 一實施例之立體分解示意圖,圖i 6a顯示圖丨6導光裝置之 立體組合示意圖。該導光裝置lq包括至少一導光膜片11及 至少一固接模組,該固接模組係用以固接該導光膜片1 ^。 該固接模組包括一第一框架46及至少一固定件,該第一框 架46係用以固接該導光膜片1丨,更進一步說,該固定件係 將該導光膜片11固接於該第一框架46上。在本實施例中, 該導光膜片11係與圖1所示之導光膜片U相同,且其係固 接(如:黏貼或夾設)於一透光板47上。該透光板47之材質 係為玻璃或壓克力。該導光膜片U及該透光板47之數目係 可為複數個,每一導光膜片U係貼合於每一該透光板47 上。 -玄固接模組更包括二固定座48及複數個固定器49。該等 固定座48係相對設置於該第一框架46上。每一該透光板47 之二端係夾設於每一該固定座48與每一該固定器49之間。 較佳地,每一該等固定座48、每一該等固定器49及每一該 等透光板47二端上設有相對之複數個孔洞,該固定件固接 於該等固定座48、該等固定器49及該透光板47之二端上設 有相對之複數個孔洞中。使得每一透光板47係可拆卸地設 置於每一該等固定座48上。該等透光板47大致上係排成一 158713.doc -18- M429758 列’且為共平面’其中該些透光板47之兩透光板47間具有 一預定間隔。其中,該固定件可為鎖固件、卡固件、鉚接 件、熔接件或楔形連接件,但並不以此為限。 請參考圖17 ’在其他實施例中,該等透光板47a係可轉 動。該固定件包括至少一樞轉接合件5〇,該樞轉接合件5〇 包括兩樞接元件501、兩基板502及兩樞接軸503。該兩枢 接元件501係固設於第一框架463上,該兩基板5〇2係分別 固接該透光板47a之兩側邊。該等樞接軸5〇3係連接該等基 板502,且該等樞接元件5〇 1係承載該等樞接轴5,使得 該等樞接軸503樞接於該第一框架463上,而得以轉動。藉 此’可使得透光板47a可進行轉動。 在本創作令,該導光膜片能將室外之入射光接近水平地 導入室内’以避免眩光。此外,該固接模組係固接該導光 膜片’以有效地限制該導光膜片使其固定於一預設範圍 内’具有快速安裝、方便拆卸、穩定設置等優點。 上述實施例僅為說明本創作之原理及其功效,並非限制 本創作。因此習於此技術之人士對上述實施例進行修改及 變化仍不脫本創作之精神。本創作之權利範圍應如後述之 申請專利範圍所列。 【圖式簡單說明】 圖1顯示本創作導光裝置之一實施例之導光膜片之立體 示意圖; 圖1A顯示圖}之導光膜片之側視圖; 圖1B顯示圖ία之局部放大圖; 158713.doc ^顯示本創作導光裝置之一實施例之立體示意圖; 顯示本創作導光裝置之另一實施例之立體示意圖; 圖4顯示本創作導光裝置之另一實施例之立體示意圖; 圖5顯示本創作導光裝置之另—實施例之立體分解示意 圖; 圖5a顯不圖5之導光裝置之組合後之局部示意圖; 圖員不本創作導光裝置之另一實施例之立體分解示意 圖, 圖6a顯示圖6導光裝置之立體組合示意圖; 圖7顯不本創作導光裝置之另一實施例之立體示意圖; 圖8顯不本創作導光裝置之另一實施例之立體分解示意 圖, 圖8a顯示圖8導光裝置之立體組合示意圖; 圖9顯示本創作導光裝置之另一實施例之組合方式示意 圖, 圖9a顯不本創作導光裝置之另一實施例之立體組合示意 圖; 圖10至圖10b顯示本創作導光裝置之另一實施例之組合 方式不意圖, 圖11至圖11c顯示本創作導光裝置之另一實施例之組合 方式示意圖; 圖12顯示本創作導光裝置之另一實施例之立體分解示意 圖; 圖12a顯示圖12導光裝置之立體組合示意圖; 158713.doc •20- M429758 圖3顯示本創作導光裝置之另一實施例之立體分解示意 圖; 圖13a顯示圖η導光裝置之立體組合示意圖; 圖13b顯示圖13a之局部剖視示意圖; 圖14顯示本創作導光裝置之另一實施例之立體分解示意 圖; 圖14a顯示圖μ導光裝置之立體組合示意圖; 圖14b顯不圖14導光裝置之側邊固定機構示意圖; 圖15顯示本創作導光裝置之另一實施例之立體分解示意 圖; 圖15a顯不圖15導光裝置之立體組合示意圖; 圖15b顯示圖15a之局部放大示意圖; 圖16顯示本創作導光裝置之另一實施例之立體分解示意 圖; 圖16a顯示圖16導光裝置之立體組合示意圖;及 圖17顯示本創作導光裝置之另一實施例之示意圖。 【主要元件符號說明】 1 a 本創作導光裝置之一實施例 lb 本創作導光裝置之另一實施例 1 c 本創作導光裝置之另一實施例 Id 本創作導光裝置之另一實施例 1 e 本創作導光裂置之另一實施例 If 本創作導光裝置之另一實施例 ig 本創作導光裝置之另一實施例 158713.doc -21 - M429758 lh 本創作導光裝置之另 一實施例 U 本創作導光裝置之另 一實施例 lk 本創作導光裝置之另 一實施例 lm 本創作導光裝置之另 一實施例 In 本創作導光裝置之另 一實施例 lp 本創作導光裝置之另 一實施例 iq 本創作導光裝置之另 一實施例 11 導光膜片 12 微結構 13 黏接元件 14 第一透光板 15 第二透光板 16 透光板 17 快拆固定機構 18 框架 19 透光片材組 19a 片材 19b 片材 20a 第一框架 20b 第二框架 22 第一框架 23 釘針 25 C形夾持元件 26 外圍框架 158713.doc -22- M429758 27 前夾框 28 後夾框 29 框架 30 入射光束 30a 參考面 3 1 輸出光束 32 透光板 33 透光板 35 黏接元件 36 結構膠 37 第一框架 38 透光板 39 上端固定機構 40 下端固定機構 41 側邊固定機構 42 第一框架 43 透光板 44 上扣件 45 下扣件 46 第一框架 46a 第一框架 47 透光板 47a 透光板 48 固定座 158713.doc -23 - M429758 49 固定器 50 樞轉接合件 111 導光膜片之第一表面 111a 導光膜片之底邊 112 導光膜片之第二表面 112a 導光膜片之側邊 113 導光膜片之頂邊 114 導光膜片之另一側邊 121 第一結構面 122 第二結構面 171 第一固定件 172 連接件 173 第二固定件 191 夾層空間 192 重力件 199 轉動軸 200a 第一孔洞 200b 第二孔洞 201 第一前固定條 202 第二前固定條 203 第三前固定條 204 第四前固定條 205 第一後固定條 206 第二後固定條 158713.doc •24- M4297581587 丨 3.doc •10·1V1^9758 In the example, the light guiding film 11 is the same as the light guiding film 11 shown in Fig. 1 . The fixing module further includes a second frame 20b, wherein the first frame 20a includes a first front fixing strip 201, a second front fixing strip 202, a third front fixing strip 203, and a fourth front fixing The second frame 20b includes a first rear fixing strip 205, a second rear fixing strip 206, a third rear fixing strip 2〇7 and a fourth rear fixing strip 2〇8. The first front fixing strip 2〇1 and the first rear fixing strip 205 cooperate with each other to clamp one end of the light guiding film 11. The first front fixing strip 202 and the second rear fixing strip 206 are mutually connected. Cooperating to clamp one end of the light guiding film 11 , the third front fixing strip 203 and the third rear fixing strip 207 cooperate with each other to clamp one end of the light guiding film sheet, and the fourth fixing The strip 204 and the fourth rear fixing strip 208 cooperate with each other to clamp one end of the light guiding film 11. The first frame 2〇a has a plurality of first holes 200a (or the first front fixing bar 201, the second front fixing bar 2〇2, the third front fixing bar 2〇3, or the fourth front fixing The strip 2〇4 has at least one first hole 200a), and the second % frame 20b has a plurality of second holes 200b (or the first rear fixing strip 2〇5, the second rear fixing strip 2〇6, the The third rear fixing strip 2〇7, or the fourth rear fixing strip 2〇8 has at least one second hole 2〇〇b), and the first holes 2〇〇a are corresponding to the second hole 200b ( Or the first hole 200a corresponds to the second hole 2〇〇b). The fixing member (not shown) is disposed in the first hole 200a and the second hole 200b to sandwich the light guiding film sheet between the first frame 2a and the second frame 20b or Between each of the fixing strips (for example, the first fixing strip 2〇1 and the first rear fixing strip 2〇5). Wherein, the fixing member may be a fastener, a fastener, a rivet, a welded member or a wedge-shaped connecting member, but I58713.doc -11 - M429758 is not limited thereto. Referring to Fig. 9 and Fig. 9a, Fig. 9 is a schematic view showing the combination of another embodiment of the present light guiding device, and Fig. 9a is a perspective view showing another embodiment of the present light guiding device. The light guiding device 1 h includes at least one light guiding film 11 and at least one fixing module for fixing the light guiding film 11 . The fixing module includes a first frame 211 and at least one fixing member (not shown). The first frame 211 is used for fixing the light guiding film 11 , and further, the fixing member is the guiding member. The photo diaphragm 11 is fixed to the first frame 2 11 . In the present embodiment, the light guiding film 11 is the same as the light guiding film 11 shown in Fig. 1. The fixing module further includes a second frame 212. The combination of the light guiding device 1h is as follows. First, the hooks 213 are hooked on the four sides of the light guiding film 1 (in other embodiments, the clips can also be used), and the four sides are facing The outer distance is moved by an appropriate distance to uniformly tension the light guiding film 11. Then, the light guiding film 11 is adhered to the first frame 211 and the second frame 212 by using a fixing member (not shown), such as an adhesive, so that the light guiding film 11 is located in the two frames. Between 211 and 2 12 . That is, the light guiding film is interposed between the first frame 211 and the second frame 212. Then, a portion of the light guiding film 11 ′ located outside the outer edges of the first frame 211 and the second frame 212 are cut along the outer edges of the first frame 211 and the second frame 212 to obtain a shape as shown in FIG. 9a. The light guiding device lh is shown. Referring to Figures 10 to 10B, a schematic view of a combination of another embodiment of the present light guiding device is shown. The light guiding device π includes at least a light guiding film u and at least one fixing module, and the fixing module is used for fixing the light guiding film 11 . The fixing module includes a first frame 22 and at least a fixing member. The 1587l3.doc M429758 a frame 22 is used for fixing the light guiding film 11, and further, the fixing member is to guide the light. The diaphragm 11 is fixed to the first frame 22. In the present embodiment, the light guiding film 11 is the same as the light guiding film 11 shown in Fig. 1. The combination of the light guiding means li is as follows. First, referring to Fig. 1A, the light guiding film 11 is flattened. Next, referring to Fig. 10a, the light guiding film 11 is covered by the first frame 22. Next, referring to FIG. 10B, the outer edge of the light guiding film 11 is extended to cover the outer peripheral wall of the first frame 22, and the fixing members penetrate the outer edge portion of the light guiding film 11 And on the outer peripheral wall of the first frame 22, the light guiding film 1 is fixed to the first frame 22 to obtain the light guiding device 1 i. Wherein, the fixing member can be a staple 23 . In other embodiments, it may be disposed on the outer wall of the first frame 22 or on other surfaces of the first frame 22. Referring to Figures 11 through 11c', a schematic view of a combination of another embodiment of the present light guiding device is shown. The light guiding device 1j includes at least one light guiding film U and at least one fixing module for fixing the light guiding film 11 . The fixing module includes a first frame 241 and at least one fixing member. The first frame 241 is for fixing the light guiding film n. Further, the fixing member fixes the light guiding film 11 Connected to the first frame 241. In the present embodiment, the light guiding film 11 is the same as the light guiding film sheet shown in Fig. 1. The combination of the light guiding device 1j is as follows. First, the light guiding film 11 and the first frame 241 are provided with reference to FIG. 11 , wherein the fixing module further includes a second frame 242 , the first frame The second frame 242 and the second frame 242 have a plurality of concave and convex structures 243 (see, for example, llc). Next, referring to FIG. 11 a, the first frame 241 and the second frame 242 are clamped to the light guide film 158713.doc -13 - M429758 11 'the bumps of the first frame 241 and the second frame 242 The structure 243 is adhered to the light guiding film 11 in a manner, wherein the concave and convex structures 243 can be directly attached to the light guiding film 11 or, in other embodiments, the concave and convex structures 243 and the light guiding There are one or more other thin elements between the diaphragms 1丨. Then, referring to FIG. 1 lc 'the fixing member is a c-shaped clamping member 25, and the C-shaped clamping member 25 is sleeved on the first frame 24 1 and the second frame 242 to fix the first Frame 241 and the second frame 242. Preferably, the C-shaped clamping element 25 is made of an elastic material. In this embodiment, the light guiding film 11 can be easily clamped through the concave and convex structures 243. More preferably, as shown in FIG. 11 c, the concave and convex structures 243 of the first frame 24i face the second frame 242. The uneven structure 243 is equal to each other, and the uneven structures 243 are complementary to each other. Referring to Fig. 12 and Fig. 12a, Fig. 12 is a perspective exploded view showing another embodiment of the present light guiding device. Fig. 12a shows a three-dimensional combination of the light guiding device of Fig. 12. The light guiding device lk includes at least one light guiding film and at least one fixing module, wherein the fixing module is configured to fix the at least one light guiding film, and the fixing module comprises a peripheral frame 26, the light guiding film 丨i is fixed in the peripheral frame 26 of the shai. In the present embodiment, the light guiding film i i is the same as the light guiding film sheet shown in Fig. 1 . The fixing module further includes at least one clamping frame 27 and at least one rear clamping frame 28. The front clamping frame 27 and the rear clamping frame 28 sandwich the at least one light guiding film 11 and are fixed to the peripheral frame 26 . Among them. The frame 27 includes a plurality of first sets of cross partitions 271, and the rear frame 28 includes a plurality of second sets of cross partitions 28 1 . The first set of cross partitions 158713.doc -14· M429758 The 271 series is disposed corresponding to the second set of cross-section knives 32 1 to form a plurality of pane units 2 61. The number of the light guiding films may be plural, and each of the light guiding films n may be respectively disposed in each of the pane units 26, and the sturdy fixing module further includes at least one transparent sheet (Fig. Not shown), it is interposed between the light guiding film 11 and the front frame 27 or the rear frame 28. The light transmissive sheet is glass, acrylic or crepe paper. Referring to FIG. 13 to FIG. 13b, FIG. 13 is a perspective exploded view showing another embodiment of the light guiding device of the present invention, FIG. 13a is a schematic view showing the stereoscopic combination of the light guiding device, and FIG. 13b is a partial cross-sectional view of FIG. 13a. schematic diagram. The light guiding device lm includes at least one light guiding film u and at least one fixing module for fixing the light guiding film 11 . The fixing module includes a frame 2 9 'β porch light guiding film 11 fixed to the frame 29. In the present embodiment, the light guiding film 11 is the same as the light guiding film 11 shown in FIG. The frame 29 includes a first frame 291, a second frame 292, a third frame 293, and a fourth frame 294. The first frame 291 has a first card slot 2911. The second frame 292 has a second card slot 2921. The third frame 293 has a third card slot 2931. The fourth frame 294 has a fourth card slot. 2941. The fixing module further includes two light transmissive plates 32, 33, at least one gravity member 341, at least two second fixing bars 342, at least two third fixing bars 343 and two to fourth fixing bars 344 » for the purposes of this embodiment. 'The gravity member 34 1 is fixed to one of the bottom edges 111 a of the light guiding film 11 (the light guiding film 11 is placed upright), and is engaged with the first card slot 2911 » due to the gravity The 341 is disposed on the bottom edge 111a' of the light guiding film 11 to make the light guiding film 11 have a flattening effect (pull 158713.doc • 15· M429758 flat). The second fixing strip 342 is disposed on the side 112a of the light guiding film 11 and is engaged with the second card slot 2921. The third fixing strip 343 is disposed on the top side 113 of the light guiding film 11 and is engaged with the third card slot 2931. The fourth fixing strip 344 is disposed on the other side of the light guiding film 11 The edge 114 is engaged with the fourth card slot 2941. The light guiding film 11 is interposed by the fixing bars 342, 343 and 344, so that the light guiding film 11 has a flattening effect. After the frame 29 and the light guiding film 11 are combined, they are interposed between the two light-transmitting plates 32, 33. In this embodiment, the frame 29 is adhered to the two transparent plates 32, 33 by using a bonding member 35, and the two transparent plates 32, 33 are bonded to each other by a structural adhesive 36. That is, the structural adhesive 36 surrounds the frame 29 〇 with reference to FIG. 14 to FIG. 14b, wherein FIG. 14 shows a perspective exploded view of another embodiment of the light guiding device of the present invention, and FIG. 14a shows a three-dimensional combination of the light guiding device of FIG. FIG. 14b is a schematic view showing the side fixing mechanism of the light guiding device of FIG. 14. The light guiding device In includes at least one light guiding film sheet and at least one fixing module for fixing the light guiding film sheet. The fixing module includes a first frame 37 for fixing the light guiding film 11. In the present embodiment, the light guiding film ji is the same as the light guiding film π shown in FIG. 1 , and is fixed (eg, pasted or sandwiched) on a light transmitting plate 38 , and the light transmitting plate 38 is The material is glass or acrylic. The fixing module further includes an upper end fixing mechanism 39, a lower end fixing mechanism 4〇, and a plurality of side fixing mechanisms 41. The upper end fixing mechanism 39 and the lower end fixing mechanism 40 are respectively fixed to the first frame 37. An upper end and a lower 158713.doc -16-M429758 end 'and the upper end fixing mechanism 39 corresponds to the lower end fixing mechanism 4 〇, and the upper end fixing mechanism 39 and the lower end fixing mechanism 4 〇 have a corresponding arc shape Exterior. The side fixing mechanisms 41 are fixed to the side of the first frame 37. Referring to Fig. 14b, the side fixing mechanism 41 has a fixing portion 411 and a rotating portion 412. The rotating portion 412 is pivotally connected to the fixing portion 411 and has a recess 413. Referring to FIG. Ma, the light-transmitting plate 38 and the light-guiding film are disposed (eg, inserted) in the two grooves 413 of the rotating portion 4丨2 of the side fixing mechanisms 4丨, and The upper end and the lower end are respectively restricted by the upper end fixing mechanism 39 and the lower end fixing mechanism 40, and the light guiding film piece has a substantially arc-like appearance. Preferably, the upper end fixing mechanism 39 and the lower end fixing mechanism 4 have a corresponding stopping portion 391, 401 for limiting the light transmitting plate 38 and the upper end and the lower end of the light guiding film 11. It can be understood that the blocking portion 391, 401 can also be a groove type or a groove. Referring to Figures 15 to 15b, Fig. 15 is a perspective exploded view showing another embodiment of the present light guiding device. Fig. 15a shows a three-dimensional combination of the light guiding device of Fig. 15, and Fig. 15b shows a partially enlarged schematic view of Fig. i5a. The light guiding device lp includes at least one light guiding film u and at least one fixing module, and the fixing module is used for fixing the light guiding film sheet. The fixing module includes a first frame 42 and at least one fixing member, the first frame 42 is for fixing the light guiding film 11 , and further, the fixing member is the light guiding film 丨i It is fixed to the first frame 42. In this embodiment, the light guiding film is the same as the light guiding film 11 of FIG. 1 , and is fixed (eg, pasted or sandwiched) on a transparent plate 43 . The material of the plate 43 is glass or acrylic. 158713.doc -17· M429758 The fixing member includes at least one upper fastening member 44 and at least a lower fastening member 45. The lower fastener 45 presses one end of the first frame 42 and the light guiding film 1 and/or the light transmitting plate 43. The upper fastening member 44 fastens the end of the first frame 42 and the lower fastening member 45. Referring to Fig. 16 and Fig. 16a', Fig. 16 is a perspective exploded view showing another embodiment of the light guiding device of the present invention, and Fig. 6a shows a three-dimensional combination of the light guiding device of Fig. 6. The light guiding device 1q includes at least one light guiding film 11 and at least one fixing module for fixing the light guiding film 1 ^. The fixing module includes a first frame 46 and at least one fixing member. The first frame 46 is for fixing the light guiding film 1 丨. Further, the fixing member is the light guiding film 11 It is fixed to the first frame 46. In the present embodiment, the light guiding film 11 is the same as the light guiding film U shown in FIG. 1, and is fixed (eg, pasted or sandwiched) on a light transmitting plate 47. The material of the light-transmitting plate 47 is glass or acrylic. The number of the light guiding film U and the light transmitting plate 47 may be plural, and each light guiding film U is attached to each of the light transmitting plates 47. The Xuan fixed module further includes two fixing bases 48 and a plurality of fixing members 49. The fixing seats 48 are oppositely disposed on the first frame 46. Two ends of each of the light-transmitting plates 47 are interposed between each of the fixing bases 48 and each of the holders 49. Preferably, each of the fixing seats 48, each of the fixing members 49 and each of the light-transmitting plates 47 are provided with a plurality of holes at opposite ends thereof, and the fixing members are fixed to the fixing blocks 48. The two ends of the fixing member 49 and the light-transmitting plate 47 are disposed in a plurality of holes. Each of the light transmissive plates 47 is detachably disposed on each of the fixing seats 48. The light-transmitting plates 47 are arranged substantially in a row 158713.doc -18-M429758 and are coplanar, wherein the light-transmitting plates 47 of the light-transmitting plates 47 have a predetermined interval therebetween. The fixing member may be a fastener, a fastener, a rivet, a welded member or a wedge-shaped connecting member, but is not limited thereto. Referring to Figure 17', in other embodiments, the light transmissive plates 47a are rotatable. The fixing member includes at least one pivoting engaging member 5'', and the pivoting engaging member 5'' includes two pivoting members 501, two substrates 502, and two pivoting shafts 503. The two pivoting members 501 are fixed to the first frame 463, and the two substrates 5〇2 are respectively fixed to the two sides of the light-transmitting plate 47a. The pivoting shafts 5〇3 are connected to the base plates 502, and the pivoting members 5〇1 are configured to carry the pivoting shafts 5 such that the pivoting shafts 503 are pivotally connected to the first frame 463. It is able to turn. By this, the light-transmitting plate 47a can be rotated. In the present invention, the light guiding film can introduce the incident light outside the room into the room horizontally to avoid glare. In addition, the fixing module fixes the light guiding film ‘ to effectively limit the light guiding film to be fixed within a predetermined range ’, and has the advantages of quick installation, convenient disassembly, stable setting and the like. The above embodiments are merely illustrative of the principles and functions of the present invention and are not intended to limit the creation. Therefore, those skilled in the art can revise and change the above embodiments without departing from the spirit of the present invention. The scope of the rights of this creation shall be as set forth in the scope of the patent application described later. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a light guiding film of an embodiment of the present light guiding device; FIG. 1A is a side view of the light guiding film of FIG. 1; FIG. 1B is a partial enlarged view of FIG. 158713.doc ^ is a perspective view showing one embodiment of the present light guiding device; a perspective view showing another embodiment of the present light guiding device; FIG. 4 is a perspective view showing another embodiment of the present light guiding device FIG. 5 is a perspective exploded view showing another embodiment of the light guiding device of the present invention; FIG. 5a is a partial schematic view showing the combination of the light guiding device of FIG. 5; FIG. 6 is a perspective view showing a three-dimensional combination of the light guiding device of FIG. 6. FIG. 7 is a perspective view showing another embodiment of the light guiding device. FIG. 8 is another embodiment of the light guiding device. FIG. 8a is a schematic diagram showing the combination of the light guiding device of FIG. 8; FIG. 9 is a schematic view showing the combination of another embodiment of the light guiding device of the present invention, and FIG. 9a shows the light guiding device of the present invention. FIG. 10 to FIG. 10b show a combination of another embodiment of the present light guiding device. FIG. 11 to FIG. 11c show a combination of another embodiment of the present light guiding device. FIG. 12 is a perspective exploded view of another embodiment of the light guiding device of the present invention; FIG. 12a is a schematic perspective view of the light guiding device of FIG. 12; 158713.doc • 20- M429758 FIG. 3 shows another embodiment of the light guiding device of the present invention. FIG. 13a is a schematic partial cross-sectional view of the light guiding device of FIG. 13b; FIG. 13b is a schematic partial cross-sectional view of FIG. 13a; FIG. 14 is a perspective exploded view of another embodiment of the present light guiding device; Figure 14a is a schematic perspective view showing the three-dimensional assembly of the light guiding device; Figure 14b is a schematic view showing the side fixing mechanism of the light guiding device of Figure 14; Figure 15 is a perspective exploded view showing another embodiment of the light guiding device of the present invention; FIG. 15b is a partially enlarged schematic view of FIG. 15a; FIG. 16 is a view showing another embodiment of the present light guiding device. FIG. 16a is a perspective view showing a three-dimensional combination of the light guiding device of FIG. 16; and FIG. 17 is a view showing another embodiment of the present light guiding device. [Main component symbol description] 1 a embodiment of the present light guiding device lb Another embodiment of the present light guiding device 1 c Another embodiment of the present light guiding device Id Another implementation of the creative light guiding device Example 1 e Another embodiment of the present light guiding splitting If another embodiment of the present light guiding device ig is another embodiment of the light guiding device 158713.doc -21 - M429758 lh Another Embodiment U Another embodiment of the present light guiding device lk Another embodiment of the present light guiding device lm Another embodiment of the present light guiding device In another embodiment of the present light guiding device lp Another embodiment of the present light guiding device iQ Another embodiment of the light guiding device 11 Light guiding film 12 Micro structure 13 Bonding element 14 First light transmitting plate 15 Second light transmitting plate 16 Light transmitting plate 17 Fast Detachment fixing mechanism 18 Frame 19 Translucent sheet group 19a Sheet 19b Sheet 20a First frame 20b Second frame 22 First frame 23 Nail pin 25 C-shaped clamping member 26 Peripheral frame 158713.doc -22- M429758 2 7 Front frame 28 Rear frame 29 Frame 30 Incident beam 30a Reference surface 3 1 Output beam 32 Translucent plate 33 Translucent plate 35 Bonding element 36 Structural adhesive 37 First frame 38 Translucent plate 39 Upper end fixing mechanism 40 Lower end fixed Mechanism 41 Side fixing mechanism 42 First frame 43 Light-transmitting plate 44 Upper fastener 45 Lower fastener 46 First frame 46a First frame 47 Light-transmitting plate 47a Light-transmitting plate 48 Fixing seat 158713.doc -23 - M429758 49 Fixing The first surface 111a of the light guiding film of the pivoting joint 111 is the bottom surface 112 of the light guiding film, the second surface 112a of the light guiding film, the side edge 113 of the light guiding film, the top edge 114 of the light guiding film. The other side of the light guiding film 121 the first structural surface 122 the second structural surface 171 the first fixing member 172 the connecting member 173 the second fixing member 191 the interlayer space 192 the gravity member 199 the rotating shaft 200a the first hole 200b the second hole 201 First front fixing strip 202 second front fixing strip 203 third front fixing strip 204 fourth front fixing strip 205 first rear fixing strip 206 second rear fixing strip 158713.doc • 24-M429758
207 第三後固定條 208 第四後固定條 211 第一框架 212 第二框架 213 鉤件 241 第一框架 242 第二框架 243 凹凸結構 261 窗格單元 271 第一組十字分隔板 281 第二組十字分隔板 291 第一邊框 292 第二邊框 293 第三邊框 294 第四邊框 311 輸出光束 312 輸出光束 313 輸出光束 341 重力件 342 第二固定條 343 第三固定條 344 第四固定條 391 擋止部 401 撞止部 158713.doc -25- M429758 411 412 413 501 502 503 1721 1731 2911 2921 2931 2941 θ3 θ4 固定部 轉動部 凹槽 棍接元件 基板 柩接轴 第一扎洞 第二孔洞 第一卡槽 第二卡槽 第三卡槽 第四卡槽 輸出角度 入射角度 158713.doc •26207 third rear fixing bar 208 fourth rear fixing bar 211 first frame 212 second frame 213 hook member 241 first frame 242 second frame 243 concave and convex structure 261 pane unit 271 first group of cross partition plate 281 second group Cross partition 291 First border 292 Second border 293 Third border 294 Fourth border 311 Output beam 312 Output beam 313 Output beam 341 Gravity member 342 Second fixing strip 343 Third fixing strip 344 Fourth fixing strip 391 Blocking 401 ram 158713.doc -25- M429758 411 412 413 501 502 503 1721 1731 2911 2921 2931 2941 θ3 θ4 fixing part rotating part groove sticking element substrate splicing shaft first hole second hole first card slot Second card slot third card slot fourth card slot output angle incident angle 158713.doc •26