TW201350961A - Method of manufacturing contact lens - Google Patents

Method of manufacturing contact lens Download PDF

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TW201350961A
TW201350961A TW101121694A TW101121694A TW201350961A TW 201350961 A TW201350961 A TW 201350961A TW 101121694 A TW101121694 A TW 101121694A TW 101121694 A TW101121694 A TW 101121694A TW 201350961 A TW201350961 A TW 201350961A
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contact lens
base material
thousandth
lens
making
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TW101121694A
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TWI551912B (en
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Kuo-Ching Chiang
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Kuo-Ching Chiang
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Priority to TW101121694A priority Critical patent/TWI551912B/en
Priority to US13/676,168 priority patent/US9200386B2/en
Priority to CN201210488643.6A priority patent/CN103507282A/en
Publication of TW201350961A publication Critical patent/TW201350961A/en
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Publication of TWI551912B publication Critical patent/TWI551912B/en

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  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)

Abstract

A method of forming a contact lens includes a step of preparing a base material and halide material, followed by mixing the halide material into the base material when the molding process is performed to allow the halide material in the contact lens.

Description

製作隱形眼鏡之方法 Method of making contact lenses

本發明係關於一種隱形眼鏡,特別是關於一種可過濾紅外線隱形眼鏡。 The present invention relates to a contact lens, and more particularly to a filterable infrared contact lens.

鏡片已發展許久,用於各領域如光學儀器或眼鏡,大部分鏡片或眼鏡講求造型設計及光學鏡片功能。先前技術有所謂各種不同材質之光學鏡片,包含塑膠、玻璃等。為了滿足輕薄的趨勢,一般眼鏡鏡片利用塑膠製作,可在其上鍍膜,例如抗反射膜、抗紫外線膜等,但是此種製程需採用塗佈機,例如旋轉塗佈機,將膜層塗上。且此種裝置價值不斐,因此不僅需要貴重儀器,且額外增加許多步驟與工時。因為是將膜層塗在鏡片表面,因此容易刮損,且並非整個鏡片本身含有抗紫外線材質效果有限。 Lenses have been developed for a long time and are used in various fields such as optical instruments or glasses. Most lenses or glasses emphasize the design and optical lens functions. The prior art has so-called optical lenses of various materials, including plastics, glass, and the like. In order to meet the trend of thinness and lightness, the general spectacle lens is made of plastic and can be coated thereon, such as an anti-reflection film, an anti-UV film, etc., but such a process requires a coating machine such as a spin coater to apply the film layer. . And such a device is not worth the cost, so not only expensive equipment, but also many additional steps and man-hours are required. Since the film layer is applied to the surface of the lens, it is easily scratched, and the effect of the entire lens itself containing the ultraviolet resistant material is limited.

隱形眼鏡隨之發展,主要功能仍與傳統眼鏡相同為視力矯正,包括:近視、遠視、散光、老花、像差等。以外觀顏色演變來看,隱形眼鏡從早期透明片發展至後來之水藍片,是為了方便佩戴者易於自護理液中辨識夾取。一般而言,現今多數隱形眼鏡的主要成份皆屬高分子聚合物,材料的發展朝向強調高透氧性與舒適度發展。其中,矽水膠可製成透氧量達100以上之鏡片,遠高於傳統鏡片所用材質能達到之效果。若依照使用期限分,隱形眼鏡可分為:日拋、週拋、雙週拋、月拋、季拋、半年拋及一年以上之長戴型。 With the development of contact lenses, the main functions are still the same as traditional glasses for vision correction, including: myopia, hyperopia, astigmatism, presbyopia, aberrations, etc. In terms of the appearance color evolution, the development of contact lenses from the early transparent film to the later water blue film is to facilitate the wearer to easily identify the self-care liquid. In general, the main components of most contact lenses today are high molecular polymers, and the development of materials emphasizes the development of high oxygen permeability and comfort. Among them, the hydrophobic glue can be made into a lens with oxygen permeability of more than 100, which is much higher than that of the traditional lens. According to the period of use, contact lenses can be divided into: daily throwing, weekly throwing, double-week throwing, monthly throwing, quarter throwing, half-year throwing and long wearing type of more than one year.

本發明之目的在於提出一種隱形眼鏡鏡片,特別是關於一種可變色(photo-chromic)鏡片。 It is an object of the present invention to provide a contact lens, and more particularly to a photo-chromic lens.

本發明之又一目的在於提出一種具有紅外線吸收功能的隱形眼鏡。 Still another object of the present invention is to provide a contact lens having an infrared absorbing function.

一種製作隱形眼鏡之方法,其特徵在於包含:備置基礎材料及光致變色染料(photo-chromic dyne),其中基礎材料包含聚合物;將光致變色染料融合於基礎材料中;以基礎材料實施成型程序以製作隱形眼鏡,使成型的隱形眼鏡中包含該光致變色染料,以利於在不同環境下改變顏色;其中成型程序的溫度低於光致變色染料之解離溫度。 A method of making a contact lens, comprising: preparing a base material and a photochromic dye (photo-chromic dyne), wherein the base material comprises a polymer; the photochromic dye is fused to the base material; and the base material is formed The procedure is to make a contact lens comprising the photochromic dye in a shaped contact lens to facilitate color change in different environments; wherein the temperature of the molding process is lower than the dissociation temperature of the photochromic dye.

融合程序包含將光致變色染料與基礎材料混合後加熱熔化;或將光致變色染料摻入基礎材料溶液中溶解混合,成型程序添加包含光安定劑、UV吸收劑或以上之組合。其中光致變色染料之形式包含微膠囊、液體、粉體或母粒。製作隱形眼鏡之成型程序包含注模、旋模或以上之組合。其中該基礎材料及光致變色染料混合比例為一比數萬分之一到一比萬分之一;一比萬分之一到一比萬分之五;一比萬分之五到一比千分之一;一比千分之一到一比數百分之一,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 The fusing process comprises mixing the photochromic dye with the base material and heating and melting; or incorporating the photochromic dye into the base material solution to dissolve and mix, and the molding process adds a light stabilizer, a UV absorber or a combination thereof. The form of the photochromic dye comprises microcapsules, liquids, powders or masterbatches. The molding process for making contact lenses includes injection molding, rotary molding, or a combination of the above. The ratio of the base material and the photochromic dye is one to tens of thousands to one ten thousandth; one to one ten thousandth to one ten thousandth; one to five ten thousand to one ratio One thousandth; one thousandth to one hundredth of a ratio, wherein the above basic materials include polymethyl methacrylate (PMMA), gas permeable semi-rigid lens (RGP), polymethyl methacrylate Ethyl ester (HEMA), GMMA or silicone hydrogel.

一種隱形眼鏡包含基礎材質;及光致變色染料分布於基礎材料內,俾使隱形眼鏡受陽光或紫外線照射,而基於 光致變色染料吸收紫外線而改變結構產生變色,其中基礎材料包含聚合物。其中上述之隱形眼鏡包含光安定劑、UV吸收劑或以上之組合。其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 A contact lens comprises a base material; and the photochromic dye is distributed in the base material, so that the contact lens is exposed to sunlight or ultraviolet light, and based on Photochromic dyes absorb ultraviolet light and change the structure to produce discoloration, wherein the base material comprises a polymer. Wherein the above contact lens comprises a light stabilizer, a UV absorber or a combination thereof. The base material described above comprises polymethyl methacrylate (PMMA), gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or silicone hydrogel.

製作隱形眼鏡之方法,其特徵在於包含:備置基礎材料及鹵化金屬,其中該基礎材料包含聚合物;將該鹵化金屬混於該基礎材料中;以該基礎材料實施成型程序以製作該隱形眼鏡,使成型的該隱形眼鏡中包含該鹵化金屬,以利於不同環境下改變顏色。其中上述之鹵化金屬包含溴化銀。3.如請求項1所述之製作隱形眼鏡之方法,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。其中上述之成型程序包含注模、旋模或以上之組合,其中該基礎材料及鹵化金屬混合比例為一比數萬分之一到一比萬分之一;或一比萬分之一到一比萬分之五;或一比萬分之五到一比千分之一。本發明也接露一種利用上述製作光致變色隱形眼鏡之方法所製作的隱形眼鏡。其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 A method for making a contact lens, comprising: preparing a base material and a metal halide, wherein the base material comprises a polymer; mixing the halogenated metal in the base material; and performing a molding process on the base material to form the contact lens, The halogenated metal is included in the formed contact lens to facilitate color change in different environments. The above halogenated metal comprises silver bromide. 3. The method of making a contact lens according to claim 1, wherein the base material comprises polymethyl methacrylate (PMMA), a gas permeable semi-rigid lens (RGP), and polyhydroxyethyl methacrylate (HEMA). , GMMA or silicone hydrogel. Wherein the molding process comprises injection molding, a rotary die or a combination thereof, wherein the mixing ratio of the base material and the halogenated metal is one to several tens of thousands to one ten thousandth; or one to one ten thousand to one More than five thousandth; or one to five thousand to one thousandth. The present invention also discloses a contact lens produced by the above method of making a photochromic contact lens. The base material described above comprises polymethyl methacrylate (PMMA), gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or silicone hydrogel.

一種製作隱形眼鏡之方法,其特徵在於包含:備置基礎材料及紅外線吸收材質,其中該基礎材料包含聚合物;將該紅外線吸收材質混於該基礎材料中;以該基礎材料實施 成型程序以製作該隱形眼鏡,使成型的該隱形眼鏡中包含該紅外線吸收材質,以利於吸收紅外線,其中上述之紅外線吸收材質約為80到300奈米,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。其中基礎材料及紅外線吸收材質混合比例為一比數萬分之一到一比萬分之一;或一比萬分之一到一比萬分之五;或一比萬分之五到一比千分之一。本發明也接露一種利用上述製作光致變色隱形眼鏡之方法所製作的隱形眼鏡。其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 A method for manufacturing a contact lens, comprising: preparing a base material and an infrared absorbing material, wherein the base material comprises a polymer; mixing the infrared absorbing material in the base material; and implementing the base material Forming the lens to make the contact lens, the infrared absorbing material is included in the formed contact lens to facilitate absorption of infrared rays, wherein the infrared absorbing material is about 80 to 300 nm, wherein the base material comprises polymethacrylic acid. Methyl ester (PMMA), breathable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or silicone hydrogel. The ratio of the base material and the infrared absorbing material is one to tens of thousands to one ten thousandth; or one to one ten thousandth to one ten thousandth; or one to five thousand to one ratio thousandth. The present invention also discloses a contact lens produced by the above method of making a photochromic contact lens. The base material described above comprises polymethyl methacrylate (PMMA), gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or silicone hydrogel.

在下列敘述中,各式特定細節係用以提供本發明實施例之通盤瞭解。本發明將配合其較佳實施例與後附之圖式詳述於下,應理解的是本發明中所有較佳實施例僅為例示之用,並非用以限制本發明。熟之該項技術者亦應理解,本發明之實施不須一或多特定細節,或其他特定方法。本發明可以應用於各種隱形眼鏡,以下做一說明。 In the following description, various specific details are set forth to provide a comprehensive understanding of the embodiments of the invention. The present invention will be described in detail with reference to the preferred embodiments and the accompanying drawings. It will be understood by those skilled in the art that the practice of the invention does not require one or more specific details or other specific methods. The present invention can be applied to various contact lenses, and the following description will be made.

本發明隱形眼鏡之生產製程可採用模子製作隱形眼鏡鏡片,包含注模或旋模。注模成型法適合作為短天期拋棄式鏡片或醫療使用。旋模成型法是將特殊配方之定量液態單體注入設定轉速之模內,液態單體因模子高速旋轉下離心力的作用而形成薄膜。鏡片曲度由模具型狀、模子轉 速控制,因其製造之鏡片抗韌度較佳,適合使用於長戴型或較長天期之拋棄式鏡片使用。 The production process of the contact lens of the present invention can use a mold to make a contact lens, including an injection mold or a rotary mold. Injection molding is suitable for use as a short-day disposable lens or medical use. The rotary molding method is to inject a specially formulated quantitative liquid monomer into a mold of a set rotation speed, and the liquid monomer forms a film by the centrifugal force of the mold rotating at a high speed. The lens curvature is changed from the mold shape to the mold Speed control, because it is made of lens with better toughness, it is suitable for long-wearing or long-day disposable lens.

於製作隱形眼鏡鏡片之過程將彩色顏料附著於鏡片表面,若以旋模成型法製作可將彩色顏料包覆在高分子聚合物中,光暈式染色工藝則使鏡片上色彩之分佈,達成外緣顏色較深,而內圓可視光學區仍保持清晰透明。本發明之特徵者為在上述之高分子聚合物加入光致變色染料(光可調變材料)於其中。因傳統方式採鍍膜方式將材料鍍在鏡片表面,基於隱形眼鏡考量而無法適用。光致變色材料可吸收陽光或紫外線而改變結構產生色變,可混於介質中,如高分子聚合物。除將染料摻雜於高分子聚合物中,也可以採用微膠囊技術製作。將光致變色染料粉體、液態、母粒或微膠囊與高分子聚合物混合,隨之利用旋轉成型或注模成型製作單體,混合時可以提供適當溫度以熔化聚合物,使得光致變色染料分布於其中或將光致變色染料加入高分子聚合物之溶液中溶解。故首先備置高分子聚合物基礎材料以及光致變色染料100,參見第一圖。 In the process of making the contact lens, the color pigment is attached to the surface of the lens, and if it is produced by the spin molding method, the color pigment can be coated in the high molecular polymer, and the halo dyeing process can make the color distribution on the lens reach the outside. The edge color is darker and the inner circular visible optic area remains clear and transparent. The present invention is characterized in that a photochromic dye (light tunable material) is added to the above polymer. The material is plated on the surface of the lens by the conventional method of coating, which cannot be applied based on the consideration of contact lenses. Photochromic materials can absorb sunlight or ultraviolet light to change the structure to produce color change, and can be mixed in a medium such as a high molecular polymer. In addition to doping the dye into the high molecular polymer, it can also be produced by microcapsule technology. The photochromic dye powder, the liquid, the masterbatch or the microcapsules are mixed with the high molecular polymer, and then the monomers are formed by rotational molding or injection molding, and when mixed, a suitable temperature can be provided to melt the polymer to cause photochromism. The dye is distributed therein or dissolved in a solution in which the photochromic dye is added to the high molecular polymer. Therefore, the polymer base material and the photochromic dye 100 are first prepared, see the first figure.

隨之,執行兩者的融合步驟或程序110,融合程序可將光致變色染料與基礎材料依據一比例混合後加熱熔化,以利於注模;或將光致變色染料摻入基礎材料溶液中溶解混合。經由陽光或紫外線照射後產生化學結構變化,而產生變色;當不受陽光或紫外線照射可恢復原本顏色。光致變色染料可與光安定劑及UV吸收劑等選擇性摻雜於高分子聚合物中。添加抗氧化劑或/及UV吸收劑於高分子聚合 物可提升抗光疲乏。上述光致變色材料可以為spiropyrans、spiroxazines、fulgide、fulgimides、benzopyran、naphthopyran、spirobenzopyran、spironaphthopyran、spirobenzoxazine或spironaphthoxazine,但不以上述例子為限。而隱形眼鏡基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)等。 Subsequently, a fusion step or program 110 of the two is performed, and the fusion process can mix the photochromic dye with the base material according to a ratio and heat-melt to facilitate injection molding; or dissolve the photochromic dye into the base material solution to dissolve mixing. The chemical structure changes after exposure to sunlight or ultraviolet rays to cause discoloration; when not exposed to sunlight or ultraviolet rays, the original color can be restored. The photochromic dye can be selectively doped into the high molecular polymer with a light stabilizer, a UV absorber, or the like. Adding an antioxidant or / and UV absorber to polymer polymerization Things can increase resistance to light fatigue. The above photochromic material may be spiropyrans, spiroxazines, fulgide, fulgimides, benzopyran, naphthopyran, spirobenzopyran, spironaphthopyran, spirobenzoxazine or spironaphthoxazine, but is not limited to the above examples. The contact lens base material comprises polymethyl methacrylate (PMMA), breathable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or silicone hydrogel.

可採用光致變色染料或是將變色分子加入到高分子聚合物或是樹脂材料中,整個基材均勻地分佈光致變色染料。因此除了可吸收紫外線外,且可以造成鏡片顏色改變,增加時尚效果。且添加抗氧化劑或/及UV吸收劑可提升抗光疲乏。光致變色染料與聚合物之比例約為0.01%~0.5%重量百分比(w/w);或0.5%~0.1%或;0.1%~1.5%。加工溫度低於上述光致變色材料之解離溫度。舉例而言,可混和1.5%光致變色材料與98.5%的高分子聚合物而成,加工溫度小於250℃。以光學性而言,PMMA透明度約為92%。 A photochromic dye may be used or a discoloration molecule may be added to the polymer or the resin material, and the photochromic dye may be uniformly distributed throughout the substrate. Therefore, in addition to absorbing ultraviolet light, it can cause changes in the color of the lens and increase the fashion effect. Adding antioxidants and/or UV absorbers can increase light fatigue. The ratio of photochromic dye to polymer is about 0.01% to 0.5% by weight (w/w); or 0.5% to 0.1% or 0.1% to 1.5%. The processing temperature is lower than the dissociation temperature of the photochromic material described above. For example, 1.5% photochromic material and 98.5% polymer can be mixed, and the processing temperature is less than 250 °C. In terms of optical properties, PMMA transparency is about 92%.

在製作過程中,可能需要將聚合物塑料烘乾處理,依據份量與材質,1至5小時不等,再將高分子聚合物與光致變色材料混合處理,之後再做成型加工。兩者混合比例依據不同用途可以為數萬分之一到萬分之一;萬分之一到萬分之五;萬分之五到千分之一;或千分之一到數百分之一。綜上,備置經烘乾塑料,混合上述之光致變色材料,攪拌使之均勻,於成型裝置進料,於設定之溫度成型於具有一溫度的模具內。對於不同溫度與濃度會影響其基本顏 色之深淺,因此可以利用其控制所需顏色。此外,必須在低於光致變色材料解離溫度下成型。因此必須調整不同溫度以配合不同之光致變色材料以及各種聚合物之熔解、成型溫度,如第一圖之步驟120。 In the production process, it may be necessary to dry the polymer plastic, depending on the amount and material, 1 to 5 hours, and then mix the high molecular polymer with the photochromic material, and then do the molding process. The mixing ratio of the two may be from tens of thousands to one ten thousand according to different purposes; one ten thousandth to five ten thousandth; one ten thousandth to one thousandth; or one thousandth to several thousandth One. In summary, the dried plastic is prepared, and the photochromic material is mixed, stirred to be uniform, fed in a molding apparatus, and molded in a mold having a temperature at a set temperature. For different temperatures and concentrations, it will affect its basic beauty. The color is so shallow that it can be used to control the desired color. In addition, it must be formed at a temperature below the dissociation temperature of the photochromic material. Therefore, different temperatures must be adjusted to match the different photochromic materials and the melting and forming temperatures of the various polymers, as in step 120 of the first figure.

隱形眼鏡製作流程尚包含成型修邊與水化驗質。以旋模成型法為例,先行配製高分子單體原料,及生產注液模子,接著注液旋模成型,此製程在如10萬級等之高等潔淨室內進行,隨之鏡片修邊使邊緣具高平滑度。再以脫模液使鏡片水化後自模子上脫落,步驟130,最後進行鏡片品質檢驗、鏡片消毒及包裝出貨。隱形眼鏡鏡片表面之設計採用仿生學複曲面設計。隱形眼鏡的主要原料為液態化學原料單體,隱形眼鏡廠商或購買已調配完成之化學原料,或自行依訂單需求將各項化學原料單體調配混合並予以熱聚合,製成符合含水量、透氧率等標準之注模原料。各式生產機器設備如射出機、注模機/旋模機之使用,並配合製程參數控制。 Contact lens manufacturing process also includes molding trimming and hydration quality inspection. Taking the spin molding method as an example, the polymer monomer raw material is first prepared, and the liquid injection mold is produced, and then the liquid injection molding is performed. The process is performed in a high-clean room such as 100,000 grades, and the lens is trimmed to the edge. High smoothness. Then, the lens is hydrated by the mold release liquid and then peeled off from the mold. In step 130, the lens quality inspection, lens sterilization and packaging shipment are finally performed. The design of the contact lens surface is designed using a bionic toric surface. The main raw materials for contact lenses are liquid chemical raw materials, contact lens manufacturers or purchase of chemical raw materials that have been blended, or the chemical raw materials can be blended and thermally polymerized according to the order requirements. Standard injection molding materials such as oxygen rate. Various types of production equipment such as injection machines, injection molding machines / rotary molding machines are used, and are controlled by process parameters.

以上方法與相關製程條件亦可以利用鹵化物取代或一併使用;請參考第二圖;備置聚合物基礎材料及備置鹵化物100A;混合聚合物基礎材料及鹵化物程序110A;以聚合物基礎材料執行成型程序120A置作鏡片。鏡片含有鹵化銀(例如氯化銀、溴化銀)微晶,當受到紫外線或短波可見光等激活光照射時,鹵化銀將分解為銀離子與鹵素離子;鹵素離子放出電子;該電子被銀離子捕獲。無色的鹵化銀分解為不透明的銀離子和透明的鹵素離子,銀離子吸 收光線使鏡片透光率降低。基於可逆反應,光移走或降低後,銀與鹵素進行再結合恢復鹵化物狀態。對基材的濃度可以為萬分之一到千分之一,依需求而定。若配合第二圖所示實施例,則可以調配多種顏色,而不限於銀離子吸收光線所呈現的灰色。換言之,在第一圖步驟100中混入第二圖的鹵化物。兩者濃度可以依據上述例子依據需求而改變。之後脫膜,步驟130A。 The above methods and related process conditions can also be replaced by halides or used together; please refer to the second figure; prepare polymer base material and prepare halide 100A; mixed polymer base material and halide program 110A; The molding process 120A is performed as a lens. The lens contains silver halide (such as silver chloride, silver bromide) crystallites. When exposed to ultraviolet or short-wave visible light, the silver halide will decompose into silver ions and halide ions; the halogen ions emit electrons; the electrons are silver ions. capture. Colorless silver halide decomposes into opaque silver ions and transparent halide ions, silver ion absorption Light is collected to reduce the transmittance of the lens. Based on the reversible reaction, after the light is removed or lowered, the silver recombines with the halogen to restore the halide state. The concentration of the substrate can be from one ten thousandth to one thousandth, depending on the demand. If the embodiment shown in the second figure is used, a plurality of colors can be formulated, and it is not limited to the gray color which the silver ions absorb. In other words, the halide of the second figure is mixed in the first step 100. The concentration of both can be changed according to the requirements according to the above examples. The film is then removed, step 130A.

本發明亦可利用於製作具有紅外線或紫外線濾光的光學鏡片,使光學鏡片除原本之功能外,因包含具備紅外線吸收物質而可將紅外線波段過濾,而具有濾波或濾光功能。本發明亦可以製作具有紅外線過濾功能的鏡片,紅外線影響角膜(cornea)和較深層的組織如水晶體(lens)和玻璃狀液(vitreous humor),紅外線對眼睛的穿透和波長有一關係,在0.8~1.2微米波長的紅外線大約有50%穿透到眼睛的深層組織。紅外線所導致的白內障已在吹玻璃工人和熔爐工人發現,主要起因於對水晶體和其附近的組織加熱;長時間的暴露可能加熱虹膜和水晶體。視網膜對近紅外線(760~1400 nm)至為敏感,其傷害可能和因加熱組織造成蛋白質和其他大分子變性。因此,在鏡片上,例如塑膠鏡片內摻雜紅外線吸收材料則可以保護眼睛視網膜與水晶體。其粒子顆粒最好在於80到350奈米,可以降低濁度。請參考第三圖;備置聚合物基礎材料及備置紅外線吸收物100B;混合聚合物基礎材料及紅外線吸收物程序110B;以聚合物基礎材料執行成型程序120R置作鏡片,之後脫 膜130B。若配合第一圖或第二圖所示實施例,則可以提供防止紫外線與紅外線功能。換言之,在第一圖或第二圖步驟100、100A中混入第三圖100B的紅外線吸收材料;或三者混合亦可。兩者濃度可以依據上述例子依據需求而改變。 The invention can also be used for manufacturing an optical lens with infrared or ultraviolet filter, so that the optical lens can filter the infrared band by including an infrared absorbing material, and has a filtering or filtering function, in addition to the original function. The invention can also produce a lens with infrared filtering function, the infrared light affects the cornea and the deeper tissues such as the lens and the vitreous humor, and the infrared rays have a relationship with the wavelength of the eye, at 0.8. About 50% of the infrared light of ~1.2 micron wavelength penetrates into the deep tissue of the eye. Infrared-induced cataracts have been found in glassblower and furnace workers, mainly due to heating of the crystals and tissues in their vicinity; prolonged exposure may heat the iris and crystals. The retina is sensitive to near-infrared rays (760~1400 nm), and its damage may be caused by denaturation of proteins and other macromolecules due to heated tissue. Therefore, on the lens, for example, the plastic lens is doped with an infrared absorbing material to protect the retina and the lens of the eye. The particle particles preferably have a particle size of 80 to 350 nm to reduce turbidity. Please refer to the third figure; prepare the polymer base material and prepare the infrared absorbing material 100B; mix the polymer base material and the infrared absorbing material program 110B; perform the molding process 120R as the lens with the polymer base material, and then take off Film 130B. If the embodiment shown in the first or second figure is used, it is possible to provide a function of preventing ultraviolet rays and infrared rays. In other words, the infrared absorbing material of the third graph 100B is mixed in the first or second step 100, 100A; or the three may be mixed. The concentration of both can be changed according to the requirements according to the above examples.

本發明以較佳實施例說明如上,然其並非用以限定本發明所主張之專利權利範圍。其專利保護範圍當視後附之申請專利範圍及其等同領域而定。凡熟悉此領域之技藝者,在不脫離本專利精神或範圍內,所作之更動或潤飾,均屬於本發明所揭示精神下所完成之等效改變或設計,且應包含在下述之申請專利範圍內。 The present invention has been described above by way of a preferred embodiment, and is not intended to limit the scope of the claimed invention. The scope of patent protection is subject to the scope of the patent application and its equivalent fields. Any modification or refinement made by those skilled in the art without departing from the spirit or scope of the present invention is equivalent to the equivalent change or design made in the spirit of the present disclosure, and should be included in the following patent application scope. Inside.

100‧‧‧備置程序 100‧‧‧Preparation procedure

110‧‧‧混合程序 110‧‧‧mixing procedure

120‧‧‧成型程序 120‧‧‧Molding procedure

130‧‧‧脫模程序 130‧‧‧Dropping procedure

100A‧‧‧備置程序 100A‧‧‧Preparation procedure

110A‧‧‧混合程序 110A‧‧‧mixing procedure

120A‧‧‧成型程序 120A‧‧‧Molding procedure

130A‧‧‧脫模程序 130A‧‧‧Mold release procedure

100B‧‧‧備置程序 100B‧‧‧Preparation procedure

110B‧‧‧混合程序 110B‧‧‧mixing procedure

120B‧‧‧成型程序 120B‧‧‧Molding procedure

130B‧‧‧脫模程序 130B‧‧‧Mold release procedure

藉由參考下列詳細敘述,將可以更快地瞭解上述觀點以及本發明之優點,並且藉由下面的描述以及附加圖式,可以更容易瞭解本發明之精神。其中:第一圖為本發明之實施例示意圖。 The above aspects and advantages of the present invention will be more readily understood from the following detailed description of the invention. Wherein: the first figure is a schematic diagram of an embodiment of the invention.

第二圖為本發明之實施例示意圖。 The second figure is a schematic view of an embodiment of the invention.

第三圖為本發明之實施例示意圖。 The third figure is a schematic view of an embodiment of the invention.

100B‧‧‧備置程序 100B‧‧‧Preparation procedure

110B‧‧‧混合程序 110B‧‧‧mixing procedure

120B‧‧‧成型程序 120B‧‧‧Molding procedure

130B‧‧‧脫模程序 130B‧‧‧Mold release procedure

Claims (14)

一種製作隱形眼鏡之方法,其特徵在於包含:備置基礎材料及鹵化金屬,其中該基礎材料包含聚合物;將該鹵化金屬混於該基礎材料中;以該基礎材料實施成型程序以製作該隱形眼鏡,使成型的該隱形眼鏡中包含該鹵化金屬,以利於不同環境下改變顏色。 A method for manufacturing a contact lens, comprising: preparing a base material and a metal halide, wherein the base material comprises a polymer; mixing the halogenated metal in the base material; and performing a molding process on the base material to form the contact lens The halogenated metal is included in the formed contact lens to facilitate color change in different environments. 如請求項1所述之製作隱形眼鏡之方法,其中上述之鹵化金屬包含溴化銀。 A method of making a contact lens according to claim 1, wherein the halogenated metal comprises silver bromide. 如請求項1所述之製作隱形眼鏡之方法,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 The method for producing a contact lens according to claim 1, wherein the base material comprises polymethyl methacrylate (PMMA), a gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA. Or silicone hydrogel. 如請求項1或2或3之製作隱形眼鏡之方法,其中上述之成型程序包含注模、旋模或以上之組合。 A method of making a contact lens according to claim 1 or 2 or 3, wherein the molding process comprises injection molding, rotary molding or a combination thereof. 如請求項1或2或3之製作光致變色隱形眼鏡之方法,其中該基礎材料及鹵化金屬混合比例為一比數萬分之一到一比萬分之一;或一比萬分之一到一比萬分之五;或一比萬分之五到一比千分之一。 The method of producing a photochromic contact lens according to claim 1 or 2 or 3, wherein the mixing ratio of the base material and the metal halide is one to several tens of thousands to one ten thousandth; or one ten thousandth To five thousandths; or one to five thousand to one thousandth. 一種如請求項第1到5項所述製作光致變色隱形眼鏡之方法所製作的隱形眼鏡。 A contact lens produced by the method of making a photochromic contact lens as described in claims 1 to 5. 如請求項6所述之隱形眼鏡,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 The contact lens of claim 6, wherein the base material comprises polymethyl methacrylate (PMMA), gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or hydrophobic water. Glue (Silicon Hydrogel). 一種製作隱形眼鏡之方法,其特徵在於包含:備置基礎材料及紅外線吸收材質,其中該基礎材料包含聚合物;將該紅外線吸收材質混於該基礎材料中;以該基礎材料實施成型程序以製作該隱形眼鏡,使成型的該隱形眼鏡中包含該紅外線吸收材質,以利於吸收紅外線。 A method for manufacturing a contact lens, comprising: preparing a base material and an infrared absorbing material, wherein the base material comprises a polymer; mixing the infrared absorbing material in the base material; and performing a molding process on the base material to make the The contact lens comprises the infrared absorbing material in the formed contact lens to facilitate absorption of infrared rays. 如請求項8所述之製作隱形眼鏡之方法,其中上述之紅外線吸收材質約為80到300奈米。 The method of making a contact lens according to claim 8, wherein the infrared absorbing material is about 80 to 300 nm. 如請求項8所述之製作隱形眼鏡之方法,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 The method for producing a contact lens according to claim 8, wherein the base material comprises polymethyl methacrylate (PMMA), a gas permeable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA. Or silicone hydrogel. 如請求項8或9或10之製作隱形眼鏡之方法,其中上述之成型程序包含注模、旋模或以上之組合。 A method of making a contact lens according to claim 8 or 9 or 10, wherein the molding process described above comprises injection molding, rotary molding or a combination thereof. 如請求項8或9或10之製作光致變色隱形眼鏡之方法,其中該基礎材料及紅外線吸收材質混合比例為一比數萬分之一到一比萬分之一;或一比萬分之一到一比萬分之五;或一比萬分之五到一比千分之一。 The method for producing a photochromic contact lens according to claim 8 or 9 or 10, wherein the mixing ratio of the base material and the infrared absorbing material is one to several tens of thousands to one ten thousandth; or one ten thousandth One to one ten thousandth; or one to five thousand to one thousandth. 一種如請求項第8到12項所述製作光致變色隱形眼鏡之方法所製作的隱形眼鏡。 A contact lens produced by the method of making a photochromic contact lens as set forth in claims 8 through 12. 如請求項13所述之隱形眼鏡,其中上述之基礎材料包含聚甲基丙烯酸甲酯(PMMA)、透氣性半硬鏡片(RGP)、聚甲基丙烯酸羥乙酯(HEMA)、GMMA或矽水膠(Silicon Hydrogel)。 The contact lens of claim 13, wherein the base material comprises polymethyl methacrylate (PMMA), breathable semi-rigid lens (RGP), polyhydroxyethyl methacrylate (HEMA), GMMA or hydrophobic water. Glue (Silicon Hydrogel).
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TWI370278B (en) * 2006-12-20 2012-08-11 Essilor Int Pixellized transparent optical component comprising an absorbent coating, production method thereof and use thereof in an optical element

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