1281557 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種彩色濾光片鍍膜製程及其產品,尤 才曰一種利用藥劑蝕刻來形成彩色濾光片鍍膜的製程,其概 應隸屬於濾光片鍍膜之應用,運用於光學產品之技術領域 範田壽。 【先前技術】 隨著二十世紀的真空技術、電腦、控制技術及材料技 術的進步,使得多層薄膜的製作已成為可行之事實,且進 一步成為商業用途; 在現今的濾光片科技領域中,光學薄膜技術巳儼然成 為控制光束光譜的工具,其能有效改變及控制光束在濾光 片系統中的光譜特性,此外尚有消除鬼影、色彩平衡調整 及鏡面保護等等功能; 有關光學薄膜的應用,由於技術本身是屬於泛用性的, 較難以某一單一產品為載具來界定,故可從光學元件相關 市場來討探,可明顯看出其附加價值及在曰常生活中佔的 比重,例如:用於抗反射膜的製品主要有照相機及眼鏡, 而使用濾光片的設備有如:傳真機、雷射印表機、雷射唱 盤及影碟機等,另外液晶顯示器中所需的導電透明薄膜以 及照明、裝飾用之冷光燈、雷射鏡片、干涉遽光鏡、分色 鏡、攝錄影機、雷射計測、電腦護目鏡、醫療照明等等。 其他如:薄膜太陽電池、低損耗雷射鏡、拋物面鏡遮板與 美國哈伯太空望遠鏡等也都屬於薄膜光學的應用。 1281557 然而’不同於微電子電路應用的IC薄膜以 作的薄膜,光學薄膜大部分屬於多層設計的結構,^开1 ί:專:㈣膜技術可分為液態成膜法與氣態成膜法兩種, 步及化學變化,後著有些是利用化學作用,有些 祕:、勿理作用’而由於基材的蒸鍍批次量產的需求, 攄不::以ι態成膜法中的物理蒸鍍方式為主,其他則根 …用途尚有化學蒸鍍、雷射輔助加熱 合沈積等的方式; 尺來1281557 IX. Description of the Invention: [Technical Field] The present invention relates to a color filter coating process and a product thereof, and a process for forming a color filter coating by using a chemical etching, which is generally The application of filter coating is applied to the field of optical products, Fan Tianshou. [Prior Art] With the advancement of vacuum technology, computer, control technology and material technology in the twentieth century, the fabrication of multilayer films has become a viable fact and has further become a commercial use; in the field of filter technology today, Optical thin film technology has become a tool for controlling the beam spectrum, which can effectively change and control the spectral characteristics of the beam in the filter system. In addition, it also eliminates ghosting, color balance adjustment and mirror protection. Application, because the technology itself is versatile, it is more difficult to define a single product for the vehicle, so it can be explored from the relevant market of optical components, which can clearly see its added value and its occupation in ordinary life. Specific gravity, for example, the products used for anti-reflection film mainly include cameras and glasses, and the devices using filters are: fax machines, laser printers, laser discs and DVD players, etc. Conductive transparent film and illumination, decorative cold light, laser lens, interference mirror, dichroic mirror, video camera, thunder Measurement, computer goggles, medical lighting and the like. Others such as thin-film solar cells, low-loss laser mirrors, parabolic mirrors and the US Hubble Space Telescope are also applications of thin-film optics. 1281557 However, unlike IC films used in microelectronic circuit applications, most of the optical films belong to the structure of multi-layer design. ^1 ί:Special: (4) Membrane technology can be divided into liquid film formation method and gas film formation method. Kinds, steps and chemical changes, followed by some use of chemical effects, some secrets: no reason to act 'and because of the demand for mass production of vapor deposition batches of substrates, 摅不:: physics in the ι state film formation method The evaporation method is mainly used, and other roots are used for chemical vapor deposition, laser-assisted heating and deposition, etc.
另在基材如玻璃的表面利用產生薄膜的方式,使基材 溥膜而形成圖案的效果,則將其產生圖案的產品 :「G〇B〇」’ 一般製作GOBO *用的方法有兩種, 分別為雷射雕刻和藥劑蝕刻兩種,其中: ^ 雷射雕刻:主要係藉由二氧化碳(co2)雷射 、\ # m )經過透鏡聚焦後產生高熱將鍍膜材料熔解 乱化,使鍍膜材料吸附且沉積在基材上,並於基材產生薄 膜而形成所需之圖案; /(,)藥劑蝕刻··目前業界最常使用的方法之一,其 •系藉由萘劑(氫氟酸;HF)會熔解鍍膜材料如二氧化鈦 j 丁1〇2 )及二氧化矽(Si〇2 )等而無法熔解印刷油料的性 質而進行GOBO的製作。 。然而,一般的鍍膜材料如二氧化鈦(Ti〇2)的熔點(2〇〇〇 C )及二氧化石夕(Si02)的溶點(17〇〇t ),都比基材如 璃勺熔點(700 C )來得高,因此當藉由雷射光使鍍膜 材料產生汽化的同時,也會對於玻璃的表面產生損傷,進 1281557 而使基材上的圖案產生模㈣化及透光性不 雕刻處與未雕刻處的邊緣會使薄膜的附著力不件^ =會使薄膜產生脫落,使製作之GOB〇品;下: 一二:射雕刻的主要缺點,加上—次僅可針對單片破璃钱 使製程的效率降低’而^要形成彩色的圖堯 丄;需將多片的玻璃進行膠合,然而進行膠合所使用纪 於G咖片的穿料會有所料,加上進行多In addition, the effect of forming a pattern on the surface of a substrate such as glass by using a film to form a pattern is to produce a pattern: "G〇B〇"' Generally, there are two methods for producing GOBO. There are two kinds of laser engraving and chemical etching, among which: ^ Laser engraving: mainly by carbon dioxide (co2) laser, \ # m), after focusing by lens, high heat is generated to melt the coating material, so that the coating material Adsorbed and deposited on the substrate, and produced a film on the substrate to form the desired pattern; / (,) chemical etching · One of the most commonly used methods in the industry, which is based on naphthalene (hydrofluoric acid) HF) is produced by melting a coating material such as titanium dioxide (J2) and cerium oxide (Si〇2) to melt the properties of the printing oil. . However, the general coating materials such as the melting point of titanium dioxide (Ti〇2) (2〇〇〇C) and the melting point of SiO2 (Si02) (17〇〇t) are higher than the melting point of the substrate such as glass spoon (700 C) is high, so when the coating material is vaporized by laser light, it will also damage the surface of the glass, and the pattern on the substrate will be made into a mold (4) and the light transmission will not be engraved. The edge of the engraving will make the adhesion of the film not ^ ^ will cause the film to fall off, making the GOB product; lower: one or two: the main shortcomings of the engraving, plus - only for the single piece of broken glass To reduce the efficiency of the process, and to form a colored image; multiple pieces of glass need to be glued, but the gluing used in the G-chip will be expected, plus more
-的方tL其所需的治具也相對地加大,且多片玻璃耀 對於圖案的定位會產生偏差,加上藉由膠合所產 2=圖案片在高功率燈光的使用下會有脫 ί雖Γί雷射雕刻的設備較貴,相較之下其成本最高,因 σ…、要有相11雷射姓刻的設備儀器即能製作GOBO產 gob:— +由於製作成本南且易損傷基材,所以雖能製作出 B〇效果的產品’但卻無法做出高品f的g〇b〇; 另藥齊Η 虫刻由於採用腐姓的方式,其功率無法 ,的條件,必需採用較低之輸出功率,而低功率的輸 出則容以朗形成之薄__性不足, ㈣’加上所使用的藥劑如氣氣酸對於基材如玻璃= 產生U虫’因此當㈣的溫度、漠度及時間等參數控制不 好時對於玻璃基材會產生霧化的現象,使未錢膜的區域透 先性不佳’雖然藥劑兹刻所需的成本較低,但受限於薄膜 ◊貝《薄膜的緻猜性較低時,藥劑雖較容易在遽光片 上養虫刻出圖案,但在5虔伞y m片的使用上則會有熱飄移的現 象,而當薄膜的敏密性較佳時,氫氟酸熔解鍵膜材料的困 7 1281557 η,南’雖所蝕刻的濾光片在使用上沒有熱飄移的現 ,互因不易蝕刻所以容易使基材受損, 溫使用時,μ _ β I,寻膜在回 θ有胰層脫洛的現象,因此藥劑蝕刻最大的困 且於如何控制氫氟酸只熔解鍍膜材料而不侵蝕到玻璃, 者風氟酸屬強酸易對人體及環境造成傷 ==圖案片,嶋多片的玻璃進行膠合,而使:: 對於GOBO片的穿透率會有所影響,加上進行多 a :璃f: σ ’其所需的治具也相對地加大,且多片玻璃膠 :式對於圖案的定位亦會產生偏差,而藉由膠合所產 b色圖案片在面功率燈光的使用下亦有脫落的情形產 生0 【發明内容】 因此,本發明人有鑑於上述兩種鍍膜技術的缺失與不 足^ GOBO片的製造及品質的維持上有所困難,因此 …、法付口般業界的需求’特經過不斷的研究與試驗,終 於發展出一種能改進現有缺失之本發明。 本么明之主要目的係在於提供一種彩色濾光片鍍膜製 ^,其可直接在單-濾光片上呈現多種顏色的圖案,並且 斤製作的GOBO >|除了穿透性及膜層緻密性提高外,且不 會有熱飄移的情形及膠合的問題,使G〇B〇片的品質能有 效控官進而提升產品的品質,可達到提高濾光片鍍膜 (GOBO片)的使用性及功能性之目的。 為達到上述目的,本發明係提供—種彩色濾光片鍍膜 製程,其包括: 1281557 (一) 基材清洗:將在基材上的雜質清除,使基材在 清洗後係具有乾淨之表面,以利於基材在下一流程的進 行; (二) 製版印刷··將經由清洗過的基材,#由製版印 刷的定位方式將所需的圖案反白印刷在基材上,而其印刷 的方式係將印刷油料覆蓋於所需的圖案上,其覆蓋的方式 係藉由喷墨的方式將油料以濃密漸層分佈的方式覆蓋於美 材上; (三) 鍍膜:將經製版印刷後的基材放置於鍍膜機中, 並經由鍍膜方式在基材上鍍上所需顏色的膜層;以及 (四) 印刷油料清洗:在經由鍍膜後的基材上進行印 刷油料的清洗,將鍍膜後的基材浸泡於一設有軟化劑之浸 泡槽中加熱浸泡使印刷油料加速軟化,並於軟化印刷刷油 料後’將鍍膜基材放置於—油料清洗機上,藉由往復移動 鍍膜基材的方式,使鍍膜基材與—刷體相接觸將覆蓋於基 材上之油料刷除’使覆蓋在印刷油料下的圖案經清洗後能 產生GOBO的效果,而經由上述之製程即可得單一顏色的 GOBO 片。 ’ 々經由上述之製程即可得單一顏色的G0B0片,而重複 第(一)、(三)及(四)的流程可在單一基材上得到彩 色之GOBO效果。 而經由上述的流程所製作出@ G〇B〇 #,係具有下列 的優點: 可提阿生產里·向功率之離子辅助蒸鍍所形成的 9 1281557 薄膜緻密性佳,不會有熱飄移現象產生,且鍍膜時不會對 .膜層有所損傷,所以膜層不會脫落的現象。 二、 漸層效果:以往業界所使用的GOBO片,僅可呈 現單一彥員&,而本發明可在單一圖案片上藉由漸層噴墨的 方式,於鍍膜基材上呈現彩色漸層的效果,使舞台燈光的 應用上更能呈現生命力及活力,且在單一基材上鍍以多種 顏色,是製程穩定度的表現。 三、 改善品質:因將多種顏色鍍於單一的基材(如玻 籲璃)上’與一般藉由膠合的G〇B〇片相比其成本可降低, 且GOBO片在高功率的燈光下使用不會有脫落的現象。 四、 減少傷害:本發明的製造流程,可減少以往製造 方式所產生的環境污染及作業人員的作業過程傷害。 五、 產業利用性:本發明所生產的GOBO彩色圖案片 不單只應用在舞台燈光技術上,在濾光片工業元件上也有 應用空間像投影機元件,掃目苗器元件等,有助於降低成本 並提升合成產率,提升業界產量之可行性,具有極大之產 *業利用價值。 【實施方式】 本發明中使用之名詞「GOBO」意指一種成型於玻璃 等基材上的圖案產品,本發明係關於一種彩色濾光片彩色 濾光片鍍膜製程及其產品。 而光學薄膜應用於彩色濾光片方面,係主要的技術是 藉由顏色豐加的性質,如第七圖所示使印刷的三原色 (CMY)中的青綠色(Cyan)、品紅色(Magenta)及黃 10 1281557 色(Yellow)的疊加方式以產生其他不同的顏色,例如: (1 )黃色(Yellow )與品紅色(Magenta )的疊加合 日 產生紅色(Red) ( Y+ R); (2) 青綠色(Cyan)與黃色(Yellow)的疊合可產 生綠色(Green) ( C+ Y= G);以及 (3) 青綠色(Cyan)與品紅色(Magenta)的疊合可 產生藍色(Blue) (C+M=B); 其中紅色(Red )、綠色(Green ) Green及藍色(則此) 即為光的三原色(RGB ),因此本發明係基於顏色疊加的 特性進行應用,本發明係關於一種彩色濾光片鍍膜製裎以 及經由該製程所產生的成品,為能詳細瞭解本創作的技術 特徵及實用功效,並可依照說明書的内容來實施,玆進— 步以圖式(如第-至六圖)戶斤示的較佳實施例,詳細說明 如后: 該彩色濾光片鍍膜製程係其主要係包含: ()基材巧洗·主要係欲將在基材上的雜質清除, 而本發明主要係藉由超音波震盈的方式對基材進行清洗, ^吸附在基材上的雜f經由超音波的«,使雜質能脫離 基材的表面,又基材在清洗後係具有乾淨之表面,以利於 基材在下一流程的進行,1 ,其中本發明所使用之超音波清洗 儀器可為兆同企業股份古 有限么司所生產的HC-7206F型的 超音波洗淨器; j (二)製版印刷: 製版印刷的方式將所需 將經由超音波清洗過的基材,藉由 的圖案反白印刷在基材上,而其印 Ϊ281557 系將印刷油料覆蓋於所需的圖案上,其覆蓋的方 a Τ墨的方式將油料以濃密漸層分佈的方 =’並對基材以4點定位的方式進行印刷,故可二 準確地在所需的圖案上進行印刷油料的印刷與覆蓋, /、中印刷所使用之油料可為油墨; (三)鑛膜:在基材上_的方法很多,—般可 態成膜法及氣態成膜法兩種,其中氣態成膜法主要可; 為化學蒸鍍與物理蒸鍍等方式,其中為配合批次量的生 “斤乂 /又吊利用物理蒸鑛的方式進行鍍膜,其中物理 讀的方式有熱蒸發蒸鐘法、電勒鍍法及離子束滅鍵法 二大類,本發明係以能爭撞 … 更進步改善膜質的離子助鍵的鍍 、;進錢膜’此種链膜方式係藉由離子使鑛膜材料的 原子(分子)沉積在基材表面時能提高膜層的緻密性,使 基材上所形成膜的品質提高,首先係將經製版印刷後的基 材放置於鍍膜機中,並經由離子助鐘的方式在基材上鑛上 所需顏色的膜層’其膜層的厚度在0·2〜0·3”之間,而圖 案因覆蓋在印刷油料下,所以在鑛膜的過程中不會有鏟膜 的情形;以及 (四)印刷油料清洗:此方法主要是應用特殊油料和 基材之間假性附著的特性,將經由鑛膜後的基材上進行印 刷油料的清洗’使覆蓋在印刷油料下的圖案經清洗後能產 生GOBO的效果’其係先將鑛膜後的基材浸泡於一設有軟 化劑之浸泡槽中加熱浸泡使印刷油料加速軟化,並於軟化 印刷刷油料後,將鑛膜基材放置於一油料清洗機上,藉由 12 1281557 =复移動《基材的方式,使㈣基材與—刷體相接 後盖於基材上之油料刷除。 、 經由上述的(一)、(二)、(三)及(四 。 後可在基材上形成單一的顏色的G〇BC)片。 、1 % 若將上述(二)、(三)及(四)的流程重複製作, 即可在單一的基材上製作出彩色的G〇b〇效果。 下列實施例用於示範說明本發明。這些實施例不以任 何方式意欲限制本發明之範圍,只用以指示如何實施表 明的製程與方法。 ②♦ 實施例(一):單色圖案片(2 〇 )製作(如第一至 三圖所示) 第一步:將基材(1 1 )以超音波方式清洗乾淨。 第二步:將所需要的圖案(1 3 )以漸層反白的方式 贺墨印刷在基材(1 1 )上。 第三步··以離子助鍍的鍍膜方式在基材(1 1 )上錢 上所品顏色(1 2 )[如青綠色(Cyan) ] 〇 第四步:浸泡並清洗印刷在基材(1 1 )上的印刷油 料。 實施例(二):彩色圖案片(2 〇 )之製作(如第四 至六圖所示) 第一步:將基材(2 1 )以超音波方式清洗乾淨; 第二步··將印刷油料(2 2 )以濃密逐漸稀疏的漸層 噴墨方式覆蓋於基材(2 1 )欲形成黃色(Yellow)及紅 色(Red)等顏色的位置上; 13 1281557 第二步:以離子助錢的方式鐘上所需顏色(2 3 )[如 品紅色(Magenta )]。 第四步:將鍍膜基材(2 1 )上的印刷油料(2 2 ) 進行浸泡及清洗; 第五步:將基材(2 1 )上形成品紅色(Magenta)顏 色的位置上,局部以漸層噴墨的印刷方式將油料(2 2 ) 印刷覆蓋於基材(2 1 )上; 第六步:以離子助鍍的方式鍍上所需顏色(2 4 )(如 黃色(Yellow)); 第七步··對鍍膜基材(2 1 )之印刷油料進行浸泡清 洗m鍍膜基材(21)得到由品紅&(Magenta) 經紅色(Red)鍍膜層(2 5 )而逐漸漸層至黃色(Yeii〇w) 效果之圖案。 一〜卞〇 月晶或彩 OBO片’其鍍膜的強度穩定不會有熱飄移現象產生且- The square tL has a relatively large fixture, and the multiple glass glare will have a deviation from the positioning of the pattern, plus the 2=pattern sheet produced by gluing will be off under the use of high-power lighting. ί Although Γί laser engraving equipment is more expensive, in comparison, its cost is the highest, because σ..., it is necessary to have the equipment of 11 lasers to produce GOBO-produced gob: - + because the production cost is south and easy to damage Substrate, so it is possible to produce a B-effect product's product, but it is impossible to make a high-quality product of g〇b〇; another drug Qiqi Insects, due to the use of the rot method, the power is not possible, the conditions must be adopted The lower output power, while the low-power output is able to form a thin __sexual deficiency, (4) plus the use of the agent such as gas-gas acid for the substrate such as glass = produce U-worm 'so the temperature of (four) When the parameters such as indifference and time are not well controlled, the glass substrate will be atomized, and the area of the unfilled film will be poorly permeable. Although the cost required for the drug is low, it is limited by the film. Mussels "When the film's guessability is low, the drug is easier to worm on the calender. The pattern is produced, but there is a phenomenon of heat drifting in the use of the 5 虔 ym piece, and when the film is more sensitive, the hydrofluoric acid melting key film material is trapped 7 1281557 η, and the south is etched. The filter does not have thermal drift in use, and the mutual resistance is not easy to etch, so the substrate is easily damaged. When used at a temperature, μ _ β I, the film is detached from the pancreatic layer in the θ, so the drug is etched. The biggest difficulty is how to control the hydrofluoric acid to melt only the coating material without eroding the glass. The strong acid of the fluorinated acid is easy to cause damage to the human body and the environment == pattern sheet, and the multi-piece glass is glued, so that:: For the penetration rate of GOBO film, the addition of a: glass f: σ 'the required fixture is also relatively enlarged, and multiple pieces of glass glue: the pattern will also be biased for the positioning of the pattern. However, the b-color pattern sheet produced by gluing is also peeled off under the use of the surface power light. [Inventive content] Therefore, the inventors have in view of the lack of the above two coating technologies and the production of GOBO sheets. And the maintenance of quality is difficult, so... It demands' Laid After continuous research and testing, and finally the development of the present invention can improve the existing deletion of one kind. The main purpose of the present invention is to provide a color filter coating system, which can directly display a plurality of colors on a single-filter, and the GOBO >|produced in addition to penetrability and film compactness Improve the external, and there will be no heat drifting and gluing problems, so that the quality of G〇B 能 film can effectively control the officer and improve the quality of the product, which can improve the usability and function of the filter coating (GOBO film). The purpose of sex. In order to achieve the above object, the present invention provides a color filter coating process comprising: 1281557 (I) substrate cleaning: removing impurities on the substrate to provide a clean surface after cleaning. In order to facilitate the progress of the substrate in the next process; (2) Plate-printing • The desired pattern will be printed on the substrate by the embossed substrate, and the printing method will be printed. The printing oil is applied to the desired pattern by covering the oil material in a densely gradual distribution manner by means of ink jetting; (3) coating: the basis of the plate-printing The material is placed in a coating machine, and a film layer of a desired color is plated on the substrate by a coating method; and (4) printing oil cleaning: the printing oil is cleaned on the substrate after the coating, after the coating The substrate is immersed in a soaking tank provided with a softener to be heated and soaked to accelerate the softening of the printing oil, and after the printing brush oil is softened, the coating substrate is placed on the oil cleaning machine, and the coating is reciprocated. In the manner of the substrate, the coating substrate is brought into contact with the brush body to remove the oil covering the substrate, so that the pattern covered under the printing oil can be cleaned to produce GOBO, and the process can be processed through the above process. Get a single color GOBO piece. The single color G0B0 film can be obtained through the above process, and the processes of (1), (3) and (4) can be repeated to obtain the color GOBO effect on a single substrate. By the above process, @G〇B〇# is produced, which has the following advantages: The 9 1281557 film formed by the ion-assisted vapor deposition of the production process can have good compactness and no heat drift. It is produced and does not damage the film layer during coating, so the film layer does not fall off. Second, the gradual effect: in the past, the GOBO film used in the industry can only present a single grading &, and the present invention can present a color gradation on the coated substrate by a gradient inkjet method on a single pattern sheet. The effect is to make the stage lighting application more vitality and vitality, and to plate a variety of colors on a single substrate, is the performance of the process stability. Third, improve the quality: because the plating of a variety of colors on a single substrate (such as glass foam) 'compared with the general G-B film by glue, the cost can be reduced, and GOBO film under high-power lighting The use will not fall off. 4. Reduction of injury: The manufacturing process of the present invention can reduce the environmental pollution caused by the conventional manufacturing method and the work process injury of the operator. V. Industrial Applicability: The GOBO color pattern sheet produced by the invention is not only applied to the stage lighting technology, but also has application space like projector components and sweeping eyepiece components on the filter industrial components, which helps to reduce Cost and increase the synthetic yield, improve the feasibility of the industry's output, and have great value in the production industry. [Embodiment] The term "GOBO" as used in the present invention means a pattern product formed on a substrate such as glass, and the present invention relates to a color filter color filter coating process and a product thereof. While the optical film is applied to color filters, the main technique is to make the Cyan and Magenta in the three primary colors (CMY) printed as shown in the seventh figure. And yellow 10 1281557 color (Yellow) superposition to produce other different colors, for example: (1) Yellow (Yellow) and magenta (Magenta) superimposed day to produce red (Y) (Y + R); (2) The superposition of Cyan and Yellow produces green (C+ Y= G); and (3) The superposition of Cyan and Magenta produces blue (Blue) (C+M=B); wherein red (Red), green (Green) Green, and blue (here) are the three primary colors (RGB) of light, so the present invention is applied based on the characteristics of color superposition, the present invention It is a kind of color filter coating and the finished product produced by the process, in order to understand the technical features and practical effects of the creation in detail, and can be implemented according to the contents of the manual, and the steps are as follows (eg The first to sixth figures are shown in the preferred embodiment, and the detailed description is as follows. After: The color filter coating process mainly includes: () the substrate is carefully washed, mainly to remove impurities on the substrate, and the present invention mainly uses ultrasonic wave shock to the substrate. Cleaning, ^ the impurity f adsorbed on the substrate via the ultrasonic «, so that the impurities can be separated from the surface of the substrate, and the substrate has a clean surface after cleaning, in order to facilitate the substrate in the next process, 1 The ultrasonic cleaning instrument used in the present invention may be an ultrasonic cleaner of the HC-7206F type produced by Siutong Enterprise Co., Ltd.; j (2) plate-making: the method of plate-making will be required The ultrasonically cleaned substrate is printed on the substrate by a reverse printing pattern, and the printing plate 281557 is used to cover the printing oil on the desired pattern, and the method of covering the ink is thickened. The layer of the gradual distribution = 'prints the substrate in a 4-point positioning manner, so that the printing and covering of the printing oil can be accurately performed on the desired pattern, and the oil used in the printing can be an ink; (3) Mineral film: on the substrate There are many methods of _, such as film forming method and gas film forming method, among which gas film forming method can be mainly used; chemical vapor deposition and physical vapor deposition, etc., in order to match the batch quantity of raw /There is also a physical vaporization method for coating. Among them, there are two types of physical reading methods: thermal evaporation steaming method, electric plating method and ion beam killing method. The present invention is capable of colliding... more advanced to improve membrane quality. Ion-bonded plating; the film-forming method of the film is to increase the density of the film by depositing atoms (molecules) of the mineral film material on the surface of the substrate to form a film on the substrate. The quality is improved. Firstly, the plate-printed substrate is placed in a coating machine, and the film of the desired color is deposited on the substrate by means of an ion-assisted clock. The thickness of the film layer is 0·2~ Between 0·3", and the pattern is covered under the printing oil, there will be no shovel film in the process of the mineral film; and (4) Printing oil cleaning: This method is mainly applied to special oil materials and substrates. The property of pseudo-adhesion will pass through the substrate behind the mineral film The cleaning of the printing oil is carried out to make the pattern of the coating under the printing oil cleaned to produce the effect of GOBO. The lining of the substrate after the mineral film is first immersed in a soaking tank provided with softener to heat the immersion to accelerate the printing oil. Softening, and after softening the printing brush oil, the mineral film substrate is placed on an oil washing machine, and the substrate is bonded to the base by means of 12 1281557 = complex movement of the substrate. The oil on the material is brushed off. Through the above (1), (2), (3) and (4, a single color G〇BC can be formed on the substrate). 1% If the processes of (2), (3) and (4) above are repeated, a color G〇b〇 effect can be produced on a single substrate. The following examples are intended to illustrate the invention. These examples are not intended to limit the scope of the invention in any way, but are merely intended to indicate how the processes and methods are shown. 2♦ Example (1): Monochrome pattern piece (2 〇) production (as shown in the first to third figures) Step 1: The substrate (1 1 ) is ultrasonically cleaned. The second step: printing the desired pattern (1 3 ) on the substrate (1 1 ) in a progressively whitening manner. The third step is to use the ion-assisted plating method to apply the color on the substrate (1 1 ) (1 2 ) [such as Cyan] 〇 Step 4: Soak and clean the printed on the substrate ( 1 1) Printing oil on. Example (2): Production of color pattern sheet (2 〇) (as shown in Figures 4 to 6) Step 1: Clean the substrate (2 1 ) by ultrasonic method; Step 2 · Print The oil material (2 2 ) is covered with a thick and gradually sparse layered inkjet method on the substrate (2 1 ) to form yellow (Red) and red (Red) colors; 13 1281557 Step 2: Help the money with ions The way the clock is on the desired color (2 3 ) [eg magenta (Magenta)]. The fourth step: soaking and cleaning the printing oil (2 2 ) on the coated substrate (2 1 ); Step 5: forming the magenta (Magenta) color on the substrate (2 1 ), partially Gradient inkjet printing method covers the oil (2 2 ) on the substrate (2 1 ); Step 6: Ion plating the desired color (2 4 ) (such as yellow) Step 7 · Soaking the printing oil of the coated substrate (2 1 ) The m coating substrate (21) is gradually obtained from the magenta & (Magenta) red (Red) coating layer (2 5 ) Layer to yellow (Yeii〇w) effect pattern. One ~ 卞〇 晶晶 or color OBO film 'The strength of its coating is stable without heat drift
透率高,且因在單-基材上得到彩色漸層效果的圖案, 藉由多片玻璃膠合方式所造成的膠合與遇熱脫落 同通與缺失,且本發 衣&方式月b大幅降低對環境的 作業人貝的傷害’另本發明之產品不單只庫用在舞 燈光技術上,在濟光片工鞏㈠“一 用在舞 - a w光片業兀*件上也有應用空間像投影 70件,掃瞄器元件等,有力# 、 提升辈… 降低成本並提升合成產率 :…之可行性,具有極大之產業利用價值。 明所作實施本發明之已述模式方面,而根據心 不同修正及變化對於熟習該項技術者而言,均2 14 1281557 然不會偏離本發明的範圍與精神,亦被涵蓋於 利範圍之内,雖'然本發明已敘述特定的較佳具體。,月、 須瞭解的是本發明不應被不當地限制於該等特定具體事! 上’而本文中所引述之文獻均以參考資料的方式併入: 案。 不 【圖式簡單說明】 第一圖係本發明單色濾光片之平面圖。 第二圖係本發明之單色濾光片之製作流程圖。The transmittance is high, and the pattern of the color gradation effect is obtained on the single-substrate, the glue and the heat-off are caused by the multi-piece glass bonding method, and the hairdressing & Reduce the damage to the environment of the workers. Another product of the invention is not only used in the dance lighting technology, in the Jiguang film Gong (1) "one used in the dance - aw light industry 兀 * pieces also have application space like Projection 70, scanner components, etc., powerful #, improve the generation... Reduce the cost and improve the synthetic yield: ... the feasibility, has great industrial use value. The implementation of the mode of the invention has been implemented, according to the heart Various modifications and variations will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Month, it should be understood that the present invention should not be unduly limited to such specific specific matters! The above cited documents are incorporated by reference: Case. Not [Simple Description] One picture is the hair Plan view of a monochromatic filter of the second production line flowchart of FIG monochromatic filter of the present invention.
第三圖係本發明之單色濾光片沿2 _ 2線之側視剖面 第四圖係本發明彩色濾光片之平面圖。 第五圖係本發明之彩色濾光片樣品之製作流程圖。 第六圖係本發明之彩色濾光片沿4 _ 4線之側視剖面 第七圖係印刷三原色之顏色疊加示意圖。 附件一、二係本發明之單色濾光片鍍膜製作流程。 附件二、四係本發明之彩色濾光片鍍膜製作流程。 附件五係本發明彩色濾光片鍍膜之應用原理示意圖。 【主要元件符號說明】 (1 0 )單色圖案片 (11)基材 (1 2 )鍍膜層 (1 3 )圖案 (2 0 )彩色圖案片 15 1281557The third drawing is a side view of the monochromatic filter of the present invention along the line 2-2. The fourth figure is a plan view of the color filter of the present invention. The fifth drawing is a flow chart for producing a color filter sample of the present invention. The sixth drawing is a side view of the color filter of the present invention along the line 4-4. The seventh figure is a schematic diagram of the color superposition of the three primary colors. Annexes I and II are the production process of the monochromatic filter coating of the present invention. The second and fourth embodiments of the color filter coating process of the present invention. Annex V is a schematic diagram of the application principle of the color filter coating of the present invention. [Main component symbol description] (1 0) Monochrome pattern sheet (11) Substrate (1 2 ) Coating layer (1 3 ) Pattern (2 0 ) Color pattern sheet 15 1281557
(21)基材 (2 2 )印刷油料 (2 3 )鍍膜層 (2 4 )鍍膜層 (2 5 )鍍膜層 16(21) Substrate (2 2 ) Printing oil (2 3 ) Coating layer (2 4 ) Coating layer (2 5 ) Coating layer 16