M440440 五、新型說明: 【新型所屬之技術領域】 種應用M440440 V. New description: [New technical field] Application
於照明裝置之側光源處理模組側Z 【先前技術】 一般來說,由於導光板具有將由其側邊所接收之 導至整個導光板的功能,因此大部分 =二, J用側向式光源的裝置都寻 透過導光板將側向式光賴提供之光束向外輸出,故雁 用範疇非常廣泛,如應用於液晶面板< 反次弋發光鍵盤的背光模組, 抑或是應用於室内照明裝置或室外照明裝置等。 請參閱圖卜其為習知導光板之結構示意圖,且圖^亦示音 了部分入射至導光板之光束的行進路徑;其中,導光板丨具有二 第一表面π以及相對於第一表面丨〗之—第二表面12,且第一表 面丨丨與第二表面12皆呈平整狀。 又,光源9係設置於導光板丨丨的側邊,用以提供複數光束L】 入射至導光板1内’由於導光板丨的折射率大於空氣的折射率, 根據司乃耳定律(sne丨丨,s law)可知,入射至導光板丨内的光束[丨容 易於導光板丨内產生全反射現象,因此由導光板丨之一端入射至 4 M440440 導光板1内的光束L1可以在導光板丨内不斷地發生全反射而傳導 至導光板丨之另一端,如此使得導光板丨内具有均勻的光能分布 又,為了使導先板丨内的光能可以向外輸出,第—表面丨丨上 還具有複數個用以破壞全反射現象的出光點1 3, 口此’ g入射至 導光板丨内的光束L1投射至出光點π時會往外折射進而能夠 向外輸出(光束L1,)。其中,該些出光點13係可透過_印刷製程、 -钮刻製程、-切削製程、—微影製程或―噴沙製程等方式而形 成於第一表面11上。 然而,習知的導光板!是具有缺點’即相對於導光板i之第 -表面u的面積而言’所有出光點13㈣的面積顯得過小,以 致於存在於導絲1 _光能無法有效地㈣輸出,造成導光板[ 所輸出的光亮不足 照明裝置) 然而’在很多的時候,應用習知導光板的裝置(如 所注重的是盡可能的使輸出明亮 此,原而輸出光束的均 勾度並不是那麼的重要’根據以上的描述可 θ ^ L 白知的的導光板 U滿足這㈣需求。是以’習知的導光板具有改善的空間。 【新型内容】 尤其係關於 本新型之主要目,在提供—種側光源處理模电, 種具有指向性且光使用效率佳的側光源處理模組。 5 M440440 本新型之另一目的,在提供—種應用上述側光源處理模組之 照明裝置。 於—較佳實施例中,本新型提供一種照明裝置,包括: 側光源處理模組側光源處理模組,包括一第一表面以及相 對於該第一表面之一第二表面,且該第二表面上形成有至少一鋸 齒狀結構; 至少—發光二極體單元’設置於該側光源處理模組之側緣’ 且用以輸出複數光束;以及 一導光模組,用以使該至少一發光二極體單元所輸出之該些 光束中之至少一者朝該至少一鋸齒狀結構投射; 其中,該至少一鋸齒狀結構上之一表面與垂直於該第一表面 之法線間的夹角係呈一特定角度,以使投射至該至少—鑛齒狀 、°構上之至少一光束於其上產生全反射,並因應該特定角度而朝 一相對應之方向行進。 方;一較佳實施例中,該導光模組設置於該至少一發光二極體 早7L以及該側光源處理模組側光源處理模組之間,抑或是該至少 毛光一極體單元設置於該側光源處理模組以及該導光模組之 間。0 於一較佳實施例中,該導光模組係包括一半圓柱透境、一微 結構以及一光學元件中之至少一者。 於一較佳實施例中’該側光源處理模組更包括一散斑(Speckle) M440440 層,該散斑層係形成於該側光源處理模組之_另一、 IHJ,以使朝 出 該相對應之方向行進之至少—光束於穿經過該散斑層後向外輸 於一較佳實施例中,該散斑層至少包括複數個散斑,且該些 散斑係連續性分布於該另—表面,抑或是該些散斑係間斷性分布 於該另一表面,抑或是該些散斑係分布形成一特定形狀。 於一較诖實施例中,該散斑層包括至少—功能區域,該至少 一功能區域呈一特定形狀且不含任一散斑。 於一較佳實施例中,該至少一發光二極體單元係包括—第一 發光二極體單元以及一第二發光二極體單元,且該第一發光二極 體早7L以及該第二發光二極體單元係分別位於該側光源處理模組 之一第一側緣以及一第二側緣。 於一較佳實施例中,照明裝置係為一室内照明裝置或一室外 照明裝置。 方:一較佳實施例中,該特定角度係介於度+/_3度之間。 於一較佳實施例中,該側光源處理模組更包括至少一增亮膜 (BEF),其設置於該至少一鋸齒狀結構上之至少一表面。 於一較佳實施例中’該側光源處理模組更包括—影像片,且 該散斑層係位於該鋸齒狀結構以及該影像片之間,以使自該光源 所輸出之複數光束於依序經由該鋸齒狀結構、該散斑層以及該影 像片後向外輪出。 7 料40440 % 於一較佳實施财,本新型亦提供—制光源處理模組用 以傳導由該側⑽處理模組之側緣進人的複數光束並予以向外輪 出’包括: 面之一第二表面,且該第 第一表面以及相對於該第一表 表面上形成有至少一鋸齒狀結構; 表面 -中’《至少-鑛齒狀結構上之—表面與垂直於該第一 ,之-法線間的失角係呈一特定角度’以使投射至該至 結構之該表面上之至少一光束於1卜洛4入 九束於其上產生全反射,並因應該特定 角度而朝-相對應之方向行進’進而於穿經過該第一表面後向外 輸出。 於-較佳實施财,側光源處理模組更包括—散斑(Spec叫 層’該散斑層係形成於該側光源處理模組之該第一表面。 於-較佳f施例中,該散斑層至少包括複數個散斑’且該些 ::係連續性分布於該另一表面,抑或是該些散斑係間斷性分布 方、。玄另-表面,抑或是該些散斑係分布形成—特定形狀。 於-較佳實施例中,該散斑層包括至少—功能區域,該至少 -功能區域呈一特定形狀且不含任—散斑。 於-較佳實施例中,該特定角㈣介於45度+/_3度之間。 二—t佳實施财’側光源處理模組更包括至少一增亮膜 其设置於該至少一鑛齒狀結構上之至少—表面。 於—較佳實施例中,側光源處理模㈣應用於—室内照明裝 8 M440440 置、-室外照明裝置、一顯示裝置、—背光模組或—投影裝置。 於一較佳實施例中,該室内照明裝置或該室外照明裝置係包 括至 > 發光二極體單元以及一導光模组,且該至少—發光二極 體單元置於該側光源處賴組之側緣,而該導錢組設置於該至 少一發光二極體單元以及該側光源處理模組之間,抑或是該至少 一發光二極體單元設置於該側光源處理模組以及該導光模組之 間,且泫導光模組用以使該至少一發光二極體單元所輪出之複數 光束中之至少一者朝該至少一鋸齒狀結構投射。 於-較佳實施例中,該導光模組係包括一半圓柱透境、一微 結構以及一光學元件中之至少一者。 於-較佳實施例中,側光源處理模組更包括_影像片,且該 散斑層係位於該鋸齒狀結構以及該影像片之間,以使自該側光源 處理松,.·且之側緣進入的該些光束於依序經由該錄齒狀結構、該散 斑層以及該影像片後向外輸出。 【實施方式】 “翏閱圖2’其為本新型側光源處理模組於第一較佳實施例之 結構惻視圖。側光源處理模粗2包括一第一表面」以及相對於第 一表面21之一第_ 乂 ,且弟二表面22上形成有複數個鋸齒 狀結構22 1 ;其中,任—鑛齒 那狀結構221上任一表面與垂直於第一 9 M440440 表面之一法線N之間皆形成有一夾角θ】。 特別-兒明的是,當任_光束由側光源處理模組2之側緣進入 側光源處理模組2,並投射至任—鑛齒狀結構22ι之任—表面上而 產生全反射時’該任—光束u會因應所投射至該任—鑛齒狀結構 22丨之表面與法❹間的夾角㊀】而繼續朝-相對應之方向行進, 並進而於穿經過側光源處理模組2的^ —表面21後向外輸出。 進—步而言,本新型可藉由對任一鋸齒狀結構22丨上之任一 表面與法線N之間的夹角Θ1進行設計,以控制任-光束L2^ 任―鑛齒狀結構22】上產生全反射後的行進方向;根據以上說明 以口 ’本新型提供的是一種具有指向性的側光源處理模組2,因此 本新型側光源處理模組2可使需要光線的區域(光束L2產生全反 射後的指向區域)特別明亮。 再者,由於在鑛齒狀結#221 1產生全反射的大部》光束U 可直接穿經過側光源處理模組2的第—表面2ι而向外輸出,故本 新型不須於側光源處理模組2的第一表面2】上設置出光點,如此 不會因為所有出光點所佔的總面積過小而產生側光源處理模組2 内的光能無法快速向外輪出的問題。 於本較佳實施例中,側⑽處理魅2係呈―平板狀,而側 光源處理模組2之每—錄齒狀結構上之任一表面與法線N之間的 夾角Θ】皆被設計成—特定角度,且該特定角度係介於“度w度 之間’使得當該些光束匕2由側光源處理模組2之側緣進人側㈣ M440440 處理模組2’並投射至任一鋸齒狀結構22丨之任—表面上而產生全 反射時,大部分的光束L2皆能於反射後繼續朝著方向Di行進。 當然’上述僅為一實施例,此當亦可由熟悉本技術之人士依 據實際應用需求而進行任何均等的變化設計,如任一鋸齒狀結構 22i上之任-表面與法線N之間的夾角並不—定被設計成相同的 角度。The side light source processing module side Z of the illumination device [Prior Art] Generally, since the light guide plate has a function of guiding the light guide plate to the entire light guide plate, the majority of the second and J lateral light sources are used. The device is designed to output the beam provided by the lateral light through the light guide plate, so the range of the geese is very wide, such as the backlight module applied to the liquid crystal panel < anti-secondary illumination keyboard, or applied to indoor illumination. Equipment or outdoor lighting, etc. Please refer to FIG. 2 as a schematic structural diagram of a conventional light guide plate, and FIG. 2 also shows a traveling path of a light beam partially incident on the light guide plate; wherein the light guide plate has two first surfaces π and relative to the first surface 丨The second surface 12, and the first surface 丨丨 and the second surface 12 are both flat. Moreover, the light source 9 is disposed on the side of the light guide plate , to provide a plurality of light beams L] incident into the light guide plate 1 'since the refractive index of the light guide plate 大于 is greater than the refractive index of the air, according to the sne丨 law丨, s law), the light beam incident on the light guide plate 丨 [丨 is easy to cause total reflection in the light guide plate ,, so the light beam L1 incident from one end of the light guide plate to the 4 M440440 light guide plate 1 can be in the light guide plate The total reflection in the crucible is continuously transmitted to the other end of the light guide plate, so that the light guide plate has a uniform distribution of light energy, and the light energy in the guide plate can be output to the outside. The cymbal also has a plurality of light exiting points 1 3 for destroying the total reflection phenomenon, and the light beam L1 incident on the light guide plate ' is refracted outwardly and can be externally outputted (beam L1,). . The light exiting points 13 are formed on the first surface 11 by means of a printing process, a button engraving process, a cutting process, a lithography process, or a sandblasting process. However, the conventional light guide plate! It has the disadvantage that the area of all the light exit points 13 (four) is too small with respect to the area of the first surface u of the light guide plate i, so that the light present in the guide wire 1 _ light energy cannot be effectively outputted (4), resulting in a light guide plate. The output is not bright enough for the lighting device. However, 'in many cases, the device that uses the conventional light guide plate (if the focus is on making the output as bright as possible, the original output beam is not so important) The above description can satisfy the requirement of (4) for the light guide plate U of θ ^ L. The conventional light guide plate has an improved space. [New content] Especially for the main purpose of the present invention, the side is provided The light source processes the mode, and has a side light source processing module with directivity and good light use efficiency. 5 M440440 Another object of the present invention is to provide a lighting device using the above-mentioned side light source processing module. In an example, the present invention provides a lighting device, including: a side light source processing module side light source processing module, including a first surface and a second surface opposite to the first surface, Forming at least one zigzag structure on the second surface; at least the light emitting diode unit is disposed at a side edge of the side light source processing module and configured to output a plurality of light beams; and a light guiding module for enabling At least one of the light beams output by the at least one light emitting diode unit is projected toward the at least one sawtooth structure; wherein a surface of the at least one sawtooth structure and a normal line perpendicular to the first surface The angle between the angles is a specific angle, so that at least one light beam projected onto the at least one-tooth-like structure is totally reflected thereon, and travels in a corresponding direction due to a specific angle. In a preferred embodiment, the light guiding module is disposed between the at least one light emitting diode 7L and the side light source processing module side light source processing module, or the at least one light body unit is disposed on the light emitting diode Between the side light source processing module and the light guiding module. In a preferred embodiment, the light guiding module comprises at least one of a semi-cylinal, a microstructure, and an optical component. In a preferred embodiment The side light source processing module further includes a Speckle M440440 layer formed on the other side of the side light source processing module, such as IHJ, to at least travel toward the corresponding direction. - a beam of light that passes outwardly through the speckle layer in a preferred embodiment, the speckle layer comprising at least a plurality of speckles, and the speckles are continuously distributed over the other surface, or The speckles are intermittently distributed on the other surface, or the speckles are distributed to form a specific shape. In a further embodiment, the speckle layer includes at least a functional region, and the at least one functional region is a specific shape and does not include any speckle. In a preferred embodiment, the at least one light emitting diode unit includes a first light emitting diode unit and a second light emitting diode unit, and the first A light-emitting diode 7L and the second LED unit are respectively located at a first side edge and a second side edge of the side light source processing module. In a preferred embodiment, the illumination device is an indoor illumination device or an outdoor illumination device. In a preferred embodiment, the particular angle is between degrees +/_3 degrees. In a preferred embodiment, the side light source processing module further includes at least one brightness enhancing film (BEF) disposed on at least one surface of the at least one sawtooth structure. In a preferred embodiment, the side light source processing module further includes a video image, and the speckle layer is located between the sawtooth structure and the image film, so that the plurality of light beams output from the light source are The sequence is rotated out through the sawtooth structure, the speckle layer, and the image sheet. 7 40440% In a preferred implementation, the present invention also provides a light source processing module for conducting a plurality of beams entering the side edge of the processing module of the side (10) and rotating it out to include 'one of: a second surface, and the first surface and at least one zigzag structure are formed on the surface of the first surface; the surface-in-the-at least - the surface of the mineral-toothed structure is perpendicular to the first - the angle of deviation between the normals is at a specific angle 'to cause at least one beam of light projected onto the surface of the structure to be totally reflected on the beam, and to cause a specific angle - Traveling in the corresponding direction' and then outputting outward after passing through the first surface. Preferably, the side light source processing module further includes a speckle layer (the spec layer is formed on the first surface of the side light source processing module. In the preferred embodiment, The speckle layer includes at least a plurality of speckles 'and: whether the system is continuously distributed on the other surface, or is the discontinuous distribution of the speckles, the mysterious surface, or the speckles The distribution is formed into a specific shape. In a preferred embodiment, the speckle layer includes at least a functional region that is in a particular shape and that does not contain any-speckles. In the preferred embodiment, The specific angle (4) is between 45 degrees + /_3 degrees. The second-side implementation light source processing module further includes at least one brightness enhancement film disposed on at least one surface of the at least one mineral tooth structure. In a preferred embodiment, the side light source processing module (4) is applied to an indoor lighting device 8 M440440, an outdoor lighting device, a display device, a backlight module or a projection device. In a preferred embodiment, the Indoor lighting device or the outdoor lighting device is included to > light emitting diode single And a light guiding module, wherein the at least one light emitting diode unit is disposed at a side edge of the side light source, and the money guiding group is disposed on the at least one light emitting diode unit and the side light source processing module The at least one light emitting diode unit is disposed between the side light source processing module and the light guiding module, and the light guiding light module is configured to rotate the at least one light emitting diode unit At least one of the plurality of beams is projected toward the at least one sawtooth structure. In a preferred embodiment, the light guiding module comprises at least one of a semi-cylindrical, a microstructure, and an optical component. In a preferred embodiment, the side light source processing module further includes a _image sheet, and the speckle layer is located between the zigzag structure and the image sheet to make the processing from the side light source loose, and The light beams entering the side edge are sequentially outputted through the recording tooth structure, the speckle layer and the image sheet. [Embodiment] FIG. 2 is a novel side light source processing module. Structural view of the first preferred embodiment. Side light source processing The die thickness 2 includes a first surface ” and a first 相对 相对 relative to the first surface 21, and the second surface 22 is formed with a plurality of zigzag structures 22 1 ; wherein any of the rib-like structures 221 An angle θ is formed between the surface and a normal N which is perpendicular to the surface of the first 9 M440440. In particular, when the _ beam is entered by the side edge of the side light source processing module 2 into the side light source processing module 2, and projected to the arbitrary-mineral-toothed structure 22 ι - surface to produce total reflection when the 'beam' will be projected to the angle between the surface of the ore-toothed structure 22丨 and the law And continuing to travel in the corresponding direction, and then passing through the surface 21 of the side light source processing module 2 and outputting outward. In the case of the step, the present invention can be applied to any sawtooth structure. The angle Θ1 between any surface of the 22 与 and the normal N is designed to control the direction of travel after the total reflection is generated on the any-beam L2^-mineral structure 22; The present invention provides a directional white light source processing module 2, so The new side light source processing module 2 makes it particularly bright in areas where light is required (the beam L2 produces a fully reflective pointing area). Furthermore, since the majority of the beam U generated by the orthodontic junction #221 1 can be directly output through the first surface 2 of the side light source processing module 2, the present invention does not need to be processed by the side light source. The first surface 2 of the module 2 is provided with a light spot, so that the light energy in the side light source processing module 2 cannot be quickly turned out because the total area occupied by all the light exit points is too small. In the preferred embodiment, the side (10) processing charm 2 is in a "flat shape", and the angle between any surface of the side light source processing module 2 and the normal line N is Designed as a specific angle, and the specific angle is between "degrees of w degrees" such that when the beam 匕 2 is entered by the side edge of the side light source processing module 2 (4) M440440 processing module 2' and projected to When any of the sawtooth structures 22 are on the surface to cause total reflection, most of the light beam L2 can continue to travel toward the direction Di after reflection. Of course, the above is only an embodiment, and this can also be familiar. The person skilled in the art makes any equal change design according to the actual application requirements. For example, the angle between the any surface of any sawtooth structure 22i and the normal N is not designed to be the same angle.
請參關3,其為本新型側光源處理馳於第二較佳實施例之 結構側視圖。其中,本較佳實施例之擴散結構 一較佳實施财所述者,在此即不再予以贅述,而本較4 = 與前述第-較佳實施例不同之處在於,側光源處理模組2,更包括 有一增壳膜(Brightness Enhancement Film,BEF)23,且該增亮膜 23 設置於每-鑛齒狀結構221的每一表面上,不但可使投射至其上 的該些光朿L2予以加強集中後才向外反射,更可使在鑛齒狀結構 221上產生全反射且未能直接穿經過第一表面2】卻從第—表面Μ 反射回㈣狀結構的光束再度反射,以使其進㈣穿經過側光源 处里換,”且2之第一表面21後向外輸出,因此增亮膜μ具有光回 收以再度利用的功能。 請參閱圖4,其為本新型側光源處理模組於第三較佳實施例之 。構側視圖。其中’本較佳實施例之擴散結構2”大致類似於本案 第—較佳實施例與第二較佳實施财所述者,在此即不再予以= 述’而本較佳實施例與前述第一較佳實施例與第二較佳實施例不 问^處在於,側光源處理模組2”更包括有—散斑(Speck⑷層24, 4政斑層24係形成於側光源處理模組2之第一表面21,用以對在 _狀結肖221 ±產生反射後的該些光束提供一混光功能,進而 ::由散斑層24向外輸出之光線呈現出均勻的混白光。於本較佳 α例中’散斑層24係包括複數個散斑分布於第-表面21的全 部〇Please refer to Fig. 3, which is a side view of the structure of the second preferred embodiment of the present invention. The diffusing structure of the preferred embodiment is described in the preferred embodiment, and will not be further described herein. The present invention is different from the foregoing preferred embodiment in that the side light source processing module is different from the foregoing preferred embodiment. 2, further comprising a brightness enhancement film (BEF) 23, and the brightness enhancement film 23 is disposed on each surface of each of the perforated tooth structures 221, not only can the light pupils projected thereon L2 is concentrated and then reflected outwards, and the light beam that is totally reflected on the mineral tooth structure 221 and fails to pass directly through the first surface 2] but is reflected back from the first surface 回 back to the (four) structure is reflected again. In order to make it enter (4) through the side light source, "and the first surface 21 of 2 is output to the outside, so the brightness enhancement film μ has the function of light recovery for reuse. Please refer to FIG. 4, which is the novel side The light source processing module is in a third preferred embodiment, wherein the 'diffusion structure 2 of the preferred embodiment' is substantially similar to the first preferred embodiment and the second preferred embodiment of the present invention. In this case, the description will not be repeated, and the preferred embodiment and the foregoing The preferred embodiment and the second preferred embodiment do not care in that the side light source processing module 2 ′′ further includes a speckle (Speck (4) layer 24, 4 political plaque 24 is formed in the side light source processing module 2 The first surface 21 is configured to provide a light mixing function for the light beams which are reflected by the θ θ 221 φ, and further: the light outputted outward by the smear layer 24 exhibits uniform mixed white light. Preferably, in the case of α, the speckle layer 24 includes a plurality of speckles distributed over the first surface 21
方明參閱圖5 ’其為本新型側光源處理模組於第四較佳實施例之 的正視圖。本較佳實施例之側光源處理模組2,,大致類似於 本案第三較佳實施例中所述者,在此即不料m 、、 其中’本較佳實施例與前述第三較佳實施例不同之處在於, 月文斑層24上包括一功能區域24 1 斑並具有—特定形狀(如LOGO), 布於第—表面2丨的全部。 且ό亥功能區域2 4 1不含任一散 即散斑層24,上的散斑並非是分Referring to Figure 5, a front elevational view of the novel side light source processing module in accordance with a fourth preferred embodiment. The side light source processing module 2 of the preferred embodiment is substantially similar to that described in the third preferred embodiment of the present invention, and is not intended to be m, wherein the preferred embodiment and the third preferred embodiment are The difference is that the moon plaque 24 includes a functional area 24 1 plaque and has a specific shape (such as LOGO), which is disposed on the entire surface of the first surface. And the function area 2 4 1 does not contain any scattered speckle layer 24, and the speckle on the surface is not a point.
曰於=較佳實施例中,由於功能區域24]不具有任—散斑而無 法k供混光功能,因此由該特定形狀(如LQGQ)所輸出的光線會不 同於由該特定形狀(如L〇G〇)以外之區域所輸出的光線(均勾的混 白光)。 明參閱圖6’其為本新型側光源處理模組於第五較佳實施例之 散㈣的正視圖。本較佳實施例之側光源處理模組2,,大致類似於 本案第_#x佳實施例中所述者,在此即不再予以賢述。 其中,本較佳實施例與前述第三較佳實_不km 12 M440440 •散斑層24,,上的散斑係僅分布 ;第一表面2丨的部分表面,並分布 形成一特定形狀(如L〇G〇)。 於本較佳貫施例中,由於^ :特❹料如L〇GQ)的區域具有散斑 Γ 因此該特定形狀(如⑽〇)所輸出的蝴均勾的 混白光)會不同於由該特定报 如形狀(如L0G0)以外之區域所 線。 匕 丨由以上第四佳實施例以及第五較佳實施例可知,本新型側光 源處理模組2,,可令特定的區域或特定的形狀以不同方式或不同光 線呈^來吸引幕人的目光,以達廣告的效果或特殊的目的。 "參閱圖7’其為本新型側光源處理模組於第六較佳實施例之 部分結構示意圆。本較佳實施例之擴散結構!大致類似於本案第 二較佳貫施例t所述者,在此即不再予以資述。 其中,本較佳實施例與前述第三較佳實施例不同之處在於, :光物模組2’,’更包括一影像片25(如正片色片幻燈片 才又衫片寻)’設置於散斑層24外並位於光束行進的方向上,以使 自先源所輪出之複數光束於依序經由鋸齒狀結構η卜散斑層“ 以,影像片25後向外輸出,因此影像片25上的影像得以呈現’ 以圖7為例,部份影像區域(如l〇g〇)呈現紅色,而另—部分的區 域(如咖〇以外的區域)則呈現綠色。因此,本較佳實施例亦可 達廣告的效果或特殊的目的。 明參閱圖8,其為—較佳圖2所示側光源處理模組應用於側向 13 M440440 式照明裝置的示意圖 一室外照明裝置,且 。惻向式照明裝置3可為一室内照明裝置或 包括複數個發光二極體單元31、側光源處理 模組2以及導光模組3 2 ’其中’該些發光二極體單元3丨設置於側 光源處理模組2的側緣,且導光模組 32介於該些發光二極體單元In the preferred embodiment, since the functional region 24] does not have any-speckle and cannot provide a light mixing function, the light output by the specific shape (such as LQGQ) may be different from the specific shape (eg, Light output from areas other than L〇G〇) (mixed white light). Referring to Figure 6', there is shown a front view of the fourth side preferred embodiment of the novel side light source processing module. The side light source processing module 2 of the preferred embodiment is substantially similar to that described in the preferred embodiment of the present invention, and will not be described herein. Wherein, the preferred embodiment and the third preferred embodiment of the present invention are only distributed on the speckle layer 24; the partial surface of the first surface 2丨 is distributed and formed into a specific shape ( Such as L〇G〇). In the preferred embodiment, since the region of the special material such as L〇GQ has speckle, the specific shape (such as the mixed white light output by (10)〇) may be different from A specific report is a line other than a shape (such as L0G0). According to the fourth preferred embodiment and the fifth preferred embodiment, the novel side light source processing module 2 can cause a specific area or a specific shape to attract the viewer in different ways or different colors. Look at the effects of advertising or special purposes. "> Fig. 7' is a partial schematic circle of the sixth preferred embodiment of the novel side light source processing module. The diffusion structure of the preferred embodiment! Substantially similar to that described in the second preferred embodiment of the case, no further reference is made here. The difference between the preferred embodiment and the foregoing third preferred embodiment is that: the light object module 2', 'further includes an image film 25 (such as a positive film slide only) Outside the speckle layer 24 and in the direction in which the beam travels, so that the plurality of beams that are rotated from the source are sequentially output through the zigzag structure, and then the image sheet 25 is output to the outside, so the image The image on the film 25 is presented as 'in the case of Fig. 7, some of the image areas (such as l〇g〇) appear red, while the other part of the area (such as the area other than the curry) is green. Therefore, this comparison The preferred embodiment can also achieve the effect of the advertisement or a special purpose. Referring to FIG. 8, it is a schematic diagram of an outdoor lighting device in which the side light source processing module shown in FIG. 2 is applied to a lateral 13 M440440 type lighting device, and The illuminating device 3 can be an indoor lighting device or include a plurality of light emitting diode units 31, a side light source processing module 2, and a light guiding module 3 2 'where the light emitting diode units 3 are set The side edge of the side light source processing module 2, and the light guiding module 32 between the light emitting diode units
h以及側光源處理模組2之間,用以引導該些發光二極體單3ι 元所輸出之該些光走+ - 中之大刀者朝著該些鋸齒狀結構22 1的 方向技射較乜者’導光模組32係包括一半圓柱透境、一微結構 以及一光學元件中之至少一者。 .“閱圖9其為另-較佳圖2所示側光源處理模組應用於側 。式.’、月裝置的不思圖。本應用實施例側向式照明裝置大致類 似於上述應用實施例中所述者,在此即不再予以賛述。其中’本應用實施例與前述應用實施例不同之處在於,該些 發光二極體單元3丨係設置於側光源處理模組2以及導光模組π 之間,該些發光二極體單31元所輸出之該些光束L2絲投射至 導光模組32,,導光模組32,再料該些光束^中之大部分者朝著 °亥些鑛齒狀結構22丨的方向投射。 田然’熟知本技藝之人士亦可輕易依據上述應用實施例所獲 仔之啟不而將圖3〜圖7所示之側光源處理模組應用於側向式照明 裝置中。除此之外,本新型側光源處理模組亦可應用於其它照明 裝置’如壁燈 '廣告燈、燈罩等;抑或是應用於背光模組,如液 晶顯示裝置等;抑或是應用於投影裝置等。 M440440 以上所述僅為本新型之較佳實施例,並非用以限定本新型之 申請專利範圍,因此凡其它未脫離本新型所揭示之精神下所完成 之等效改變或修飾,均應包含於本案之申請專利範圍内。 M440440 圖式簡單說明】 圖 :係為習知導光板之結構示音 圖 圖。k為本新㈣光源處理键組於第—較佳實施例之結構側視 口 ::係為本新型惻光源處理楔組於第二較佳 ^ ··係為本新型側光源處理楔組於第三較佳實施例 圖5:係為本新型側光源處理模έ 視圖。 、,‘且於第四較佳貫施例之散斑層的正 圖6 .係為本新型側光源處理榲έ 規圖。 …且&第五較佳貫施例之散斑層的正 *7 ' / 各、 •係為本新型側光源處理模組 $丄 意圖。 於弟,、軚佳貧知例之部分結構示 的示較佳圖2所示側光源處理模組應用於側向式照明裝置 圖9.係為另一較佳圖2所示側光源處理模組應用 實施例之結構側視 之結構側視 置的 示意圖 於側向式照明裝 【主要元件符號說明】 3照明裝置 2側光源處理模組 2 ’側光源處理模組 16 M440440 2”側光源處理模組 3 ’側向式照明裝置 12第二表面 21第一表面 23增亮膜 24’散斑層 25影像片 32導光模組 221鋸齒狀結構 D1方向 L1’光束 2’’’側光源處理模組 1 1第一表面 13出光點 22第二表面 24散斑層 24’’散斑層 31發光二極體單元 32,導光模組 241功能區域 L1光束 L2光束 N法線 Θ1鋸齒狀結構之二相鄰表面間的夾角Between the side light source processing module 2 and the side light source processing module 2, the knives of the light trajectories outputted by the light emitting diodes 3 3 are driven toward the sawtooth structures 22 1 . The leader 'light guide module 32 includes at least one of a semi-cylindrical cavity, a microstructure, and an optical component. "Reading FIG. 9 is another - preferably the side light source processing module shown in FIG. 2 is applied to the side.", the monthly device is not considered. The lateral illumination device of the application embodiment is substantially similar to the above application implementation. In the example, the description is not repeated here. The difference between the application embodiment and the application embodiment is that the LED units 3 are disposed in the side light source processing module 2 and Between the light guiding modules π, the light beams L2 output by the light emitting diodes 31 are projected to the light guiding module 32, and the light guiding module 32, and most of the light beams The person is projected in the direction of 22 丨 of some mineral tooth structures. The person who is familiar with the art can also easily obtain the side light source shown in FIG. 3 to FIG. 7 according to the above application examples. The processing module is applied to the lateral lighting device. In addition, the novel side light source processing module can also be applied to other lighting devices such as wall lamps, advertising lamps, lampshades, etc., or applied to backlight modules, such as Liquid crystal display device, etc.; or applied to projection devices, etc. M440440 The present invention is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, any equivalent changes or modifications made without departing from the spirit of the present invention should be included in the application of the present application. Within the scope of the patent. M440440 Schematic diagram of the diagram] Figure: is a structural diagram of the conventional light guide plate. k is the new (four) light source processing key set in the structure of the first preferred embodiment: The present invention is a novel side light source processing wedge set in the third preferred embodiment. FIG. 5 is a view of the novel side light source processing module. The front view of the speckle layer of the fourth preferred embodiment is a new side light source treatment 。 gauge. ... and < the fifth preferred embodiment of the speckle layer of the positive *7 ' / each The system is a new type of side light source processing module. The design of the partial light source processing module shown in Figure 2 is applied to the lateral lighting device. Is another structure of the side light source processing module application embodiment shown in FIG. Schematic diagram of the side view of the structure in the lateral lighting installation [main symbol description] 3 lighting device 2 side light source processing module 2 'side light source processing module 16 M440440 2" side light source processing module 3 'lateral lighting device 12 second surface 21 first surface 23 brightness enhancement film 24' speckle layer 25 image film 32 light guide module 221 sawtooth structure D1 direction L1 'beam 2 ''' side light source processing module 1 1 first surface 13 light Point 22 second surface 24 speckle layer 24'' speckle layer 31 light emitting diode unit 32, light guiding module 241 functional area L1 beam L2 beam N normal Θ 1 angle between the adjacent surfaces of the sawtooth structure