TWI823316B - Structural-reinforcing color lens device - Google Patents

Abstract

A scratch-resistant optical lens device includes a functional layer, a color layer and an outer protective layer. The functional layer is made of a first material. The color layer is provided on a front side surface of the functional layer and is made of a colored material to provide a predetermined color on the front side surface of the functional layer. The outer protective layer is adhered to the color layer on the front side surface of the functional layer for reinforcing and protecting the color layer and the front side surface of the functional layer together. The outer protective layer is made of a second material which is chemical-compatible to the first material of the functional layer to reduce a total thickness.

Description

強化結構之彩色光學透鏡裝置 Reinforced structure color optical lens device

本發明係關於一種強化〔reinforcing〕結構〔structural〕之彩色〔color〕光學透鏡裝置；特別是關於一種多功能式〔multiple functions〕強化結構之彩色光學透鏡裝置。 The present invention relates to a color optical lens device with reinforcing structure; in particular, it relates to a color optical lens device with multiple functions and reinforced structure.

關於習用具保護薄膜之光學透鏡裝置，例如：美國專利第US-9977264號之〝Polarizing lens for sunglasses〞發明專利，其揭示一種太陽眼鏡用偏光透鏡。該太陽眼鏡用偏光透鏡主要包含一透明樹脂射出成形〔injecting transparent resin〕之透鏡及一偏光薄膜〔polarizing film〕。 Regarding conventional optical lens devices using protective films, for example, US Patent No. 9977264 "Polarizing lens for sunglasses" discloses a polarizing lens for sunglasses. The polarized lens for sunglasses mainly includes a lens made by injecting transparent resin and a polarizing film.

承上，前述專利第US-9977264號之該偏光薄膜之兩表面之每個表面以層化式分別以一黏著層〔adhesive layer〕黏貼結合一透明保護膜片〔transparent protective sheet〕，且該透明保護膜片可選擇為一聚乙烯醇系樹脂〔polyvinyl alcohol〕薄膜。 Following the above, each of the two surfaces of the polarizing film in the aforementioned patent No. US-9977264 is bonded with a transparent protective film (transparent protective sheet) in a layered manner with an adhesive layer. The protective film may be a polyvinyl alcohol resin film.

承上，前述專利第US-9977264號之該偏光薄膜以一雙色性有機色素染料〔dichroic organic dye〕進行以拉緊延伸〔stretched〕方式染色，並將該偏光薄膜及其層化結構〔laminate〕分別以球面或非球面方式進行彎曲，且將該透明樹脂射出成形之透鏡以射出成形於該偏光薄膜上而形成該太陽眼鏡用偏光透鏡。 Following on from the above, the polarizing film of the aforementioned patent No. US-9977264 is dyed with a dichroic organic dye in a stretched manner, and the polarizing film and its layered structure are laminate. The lens is bent in a spherical or aspherical manner, and the transparent resin is injection molded onto the polarizing film to form the polarizing lens for sunglasses.

然而，前述專利第US-9977264號之該偏光薄 膜及其層化結構之每個表面黏貼結合該透明保護膜片，如此該透明保護膜片僅能用以保護該偏光薄膜及其雙色性有機色素染料而已，因而該透明保護膜片在保護功能設計上受到一定程度的限制。 However, the polarizing thin film disclosed in the aforementioned patent No. US-9977264 Each surface of the film and its layered structure is adhered to and combined with the transparent protective film, so that the transparent protective film can only be used to protect the polarizing film and its dichroic organic pigments and dyes. Therefore, the transparent protective film has a protective function The design is subject to certain restrictions.

另一習用具保護薄膜之光學透鏡裝置，例如：中華民國專利公告第TW-M520648號之〝眼鏡鏡片〞新型專利，其揭示一種眼鏡鏡片。該眼鏡鏡片包含一鏡片本體、一阻抗膜層及二奈米保護膜，且該眼鏡鏡片具有一減光柔化結構。 Another conventional optical lens device with a protective film, for example: the "Spectacle Lens" new patent of the Republic of China Patent Notice No. TW-M520648, which discloses a spectacle lens. The spectacle lens includes a lens body, a resistance film layer and two nanometer protective films, and the spectacle lens has a light-reducing and softening structure.

承上，前述專利第TW-M520648號之該鏡片本體為一抗藍光染色鏡片，而該鏡片本體具有一前側表面及後側表面，且該二奈米保護膜分別貼附於該鏡片本體之前側表面上，與貼附於該鏡片本體之後側表面及該阻抗膜層之間。 Following the above, the lens body of the aforementioned patent No. TW-M520648 is an anti-blue light tinted lens, and the lens body has a front side surface and a rear side surface, and the two nanometer protective films are respectively attached to the front side of the lens body. on the surface, and attached between the rear side surface of the lens body and the resistance film layer.

承上，前述專利第TW-M520648號之該阻抗膜層具有一後側表面，並選擇將一阻抗保護層設置於該阻抗膜層之後側表面上，且該阻抗膜層可選自一具有氧化鉻之半透光薄膜，且該阻抗膜層可選擇為一物理氣相沉積之鍍膜。 Following the above, the resistive film layer of the aforementioned patent No. TW-M520648 has a rear side surface, and a resistive protective layer is selected to be disposed on the rear side surface of the resistive film layer, and the resistive film layer can be selected from a layer with oxidation A semi-transparent film of chromium, and the resistive film layer can be selected as a physical vapor deposition coating.

承上，前述專利第TW-M520648號之該阻抗膜層包含數個薄膜部及數個透光狹縫，而每個該薄膜部由抗紅外線材料、抗紫外線材料及半透光材料所形成，且數個該薄膜部相互間隔地均勻佈設於該鏡片本體之後側表面上。 Following the above, the resistive film layer of the aforementioned patent No. TW-M520648 includes several film parts and several light-transmitting slits, and each of the film parts is formed of anti-infrared material, anti-ultraviolet material and semi-transparent material. And several of the thin film portions are evenly spaced apart from each other on the rear side surface of the lens body.

承上，前述專利第TW-M520648號之數個該薄膜部為數個相同大小之六邊形薄膜，並將數個該薄膜部相鄰排列而形成一蜂窩狀，且在數個該薄膜部之間形成數個該透光狹縫，且由數個該薄膜部及數個該透光狹縫構成該減光柔化結構。 Following the above, the plurality of film portions in the aforementioned patent No. TW-M520648 are a plurality of hexagonal films of the same size, and the plurality of film portions are arranged adjacent to form a honeycomb shape, and between the plurality of film portions Several light-transmitting slits are formed therebetween, and the light-reducing and softening structure is composed of several thin film portions and several light-transmitting slits.

然而，前述專利第TW-M520648號之該奈米保護膜設置結合於該鏡片本體之前側表面，或該阻抗膜層及阻抗保護層之組合結構設置結合於該鏡片本體之後側表面，因而該二奈米保護膜或阻抗膜層及阻抗保護層之組合結構在保護功能設計上受到一定程度的限制。 However, the nano protective film of the aforementioned patent No. TW-M520648 is arranged to be combined with the front side surface of the lens body, or the combined structure of the resistance film layer and the resistance protection layer is arranged to be combined with the rear side surface of the lens body, so the two The combined structure of a nano protective film or a resistive film layer and a resistive protective layer is subject to certain limitations in the design of protective functions.

另一習用具保護薄膜之光學護目鏡裝置，例如：中華民國專利公告第TW-M519743號之〝護目鏡片結構〞新型專利，其揭示一種護目鏡片結構。該護目鏡片結構包含一鏡片本體及一保護薄膜。 Another conventional optical goggle device with a protective film, for example: the new patent "Goggle Lens Structure" of the Republic of China Patent Announcement No. TW-M519743, which discloses a goggle lens structure. The goggle lens structure includes a lens body and a protective film.

承上，前述專利第TW-M519743號之該鏡片本體具有一第一表面及一第二表面，並在該鏡片本體上該第二表面相反於該第一表面，且將該保護薄膜選擇結合於該鏡片本體之第一表面或第二表面上。 Following the above, the lens body of the aforementioned patent No. TW-M519743 has a first surface and a second surface, and the second surface on the lens body is opposite to the first surface, and the protective film is selectively combined with On the first surface or the second surface of the lens body.

承上，前述專利第TW-M519743號之該保護薄膜為一層狀結構，而該保護薄膜包含氧化矽複合膜層、第一二氧化鋯膜層、第一二氧化矽膜層、氧化銦錫膜層、第二二氧化鋯膜層及第二二氧化矽膜層，且該氧化矽複合膜層結合於該鏡片本體之第一表面或第二表面。 Following on from the above, the protective film of the aforementioned patent No. TW-M519743 has a layered structure, and the protective film includes a silicon oxide composite film layer, a first zirconium dioxide film layer, a first silicon dioxide film layer, and an indium tin oxide film. film layer, a second zirconium dioxide film layer and a second silicon dioxide film layer, and the silicon oxide composite film layer is combined with the first surface or the second surface of the lens body.

承上，前述專利第TW-M519743號之該氧化矽複合膜層採用氧化矽與二氧化矽混合材料形成，並將該第二二氧化鋯膜層可替換為五氧化三鈦膜層，且該第二二氧化矽膜層可依序反覆設置該第二二氧化鋯膜層及第二二氧化矽膜層。 Following the above, the silicon oxide composite film layer in the aforementioned patent No. TW-M519743 is formed of a mixed material of silicon oxide and silicon dioxide, and the second zirconium dioxide film layer can be replaced with a titanium pentoxide film layer, and the second zirconium dioxide film layer can be replaced with a titanium pentoxide film layer. The second silicon dioxide film layer can be repeatedly provided with the second zirconium dioxide film layer and the second silicon dioxide film layer.

然而，前述專利第TW-M519743號之該保護薄膜可選擇結合於該鏡片本體之第一表面或第二表面上，如此該保護薄膜僅能用以保護該鏡片本體之第一表面或第二表面而已，因而該保護薄膜在保護功能設計上受到一定程度的限制。 However, the protective film of the aforementioned patent No. TW-M519743 can be selectively bonded to the first surface or the second surface of the lens body, so that the protective film can only be used to protect the first surface or the second surface of the lens body. That's all, so the protective film is subject to certain limitations in its protective function design.

雖然前述美國專利第US-9977264號、中華民 國專利公告第TW-M520648號及公告第TW-M519743號已揭示各種習用具保護薄膜之光學護目鏡裝置，但其必然存在進一步改良之需求，以便提供一種簡化保護構造之具染色層之光學透鏡裝置。 Although the aforementioned U.S. Patent No. US-9977264, PRC National Patent Publication No. TW-M520648 and Publication No. TW-M519743 have disclosed various conventional optical goggle devices with protective films, but there is definitely a need for further improvement in order to provide an optical lens with a tinted layer with a simplified protective structure. device.

顯然，前述美國專利第US-9977264號、中華民國專利公告第TW-M520648號及公告第TW-M519743號之諸發明及新型專利僅為本發明技術背景之參考及說明目前技術發展狀態而已，其並非用以限制本發明之範圍。 Obviously, the aforementioned inventions and new model patents in U.S. Patent No. US-9977264, Republic of China Patent Publication No. TW-M520648 and Republic of China Patent Publication No. TW-M519743 are only for reference and explanation of the technical background of the present invention and the current state of technological development. It is not intended to limit the scope of the invention.

有鑑於此，本發明為了滿足上述需求，其提供一種強化結構之彩色光學透鏡裝置，其於一功能性光學層或一複合功能性光學層配置一第一前側表面及一第二後側表面，並將一彩色薄膜層配置於該功能性光學層或複合功能性光學層之第一前側表面上，以便由該彩色薄膜層提供一預定顏色，且將一外保護層保護貼附於該功能性光學層或複合功能性光學層之彩色薄膜層上，以便利用該外保護層同時強化及保護該功能性光學層或複合功能性光學層之第一前側表面及彩色薄膜層，以改善習用具保護薄膜之光學透鏡裝置無法提供適當保護於功能性光學層、簡化其整體構造及降低其總厚度之技術問題。 In view of this, in order to meet the above needs, the present invention provides a color optical lens device with a reinforced structure, which is configured with a first front side surface and a second rear side surface on a functional optical layer or a composite functional optical layer. And dispose a color film layer on the first front side surface of the functional optical layer or composite functional optical layer, so that the color film layer provides a predetermined color, and an outer protective layer is protectively attached to the functional optical layer. on the colored film layer of the optical layer or the composite functional optical layer, so that the outer protective layer can be used to simultaneously strengthen and protect the first front side surface of the functional optical layer or the composite functional optical layer and the colored film layer to improve the protection of conventional appliances Thin-film optical lens devices are unable to provide adequate protection for the functional optical layer, simplify their overall structure, and reduce their overall thickness.

本發明較佳實施例之主要目的係提供一種強化結構之彩色光學透鏡裝置，其於一功能性光學層或一複合功能性光學層配置一第一前側表面及一第二後側表面，並將一彩色薄膜層配置於該功能性光學層或複合功能性光學層之第一前側表面上，以便由該彩色薄膜層提供一預定顏色，且將一外保護層保護貼附於該功能性光學層或複合功能性光學層之彩色薄膜層上，以便利用該外保護層同時強化及保護該功能性光學層或複合功能性光學層之第一前側表面及彩色薄膜層，因而達成功能性光學層之材料相容 於外保護層材料、簡化其整體構造及降低其總厚度之目的或功能。 The main purpose of the preferred embodiment of the present invention is to provide a color optical lens device with a reinforced structure, which is configured with a first front side surface and a second back side surface on a functional optical layer or a composite functional optical layer, and A color film layer is disposed on the first front side surface of the functional optical layer or composite functional optical layer so as to provide a predetermined color by the color film layer, and an outer protective layer is protectively attached to the functional optical layer Or on the color film layer of the composite functional optical layer, so that the outer protective layer can be used to simultaneously strengthen and protect the functional optical layer or the first front side surface of the composite functional optical layer and the color film layer, thereby achieving the function of the functional optical layer Material compatibility The purpose or function of protecting the outer layer material, simplifying its overall structure and reducing its overall thickness.

為了達成上述目的，本發明較佳實施例之強化結構之彩色光學透鏡裝置包含： In order to achieve the above object, the reinforced structure colored optical lens device of the preferred embodiment of the present invention includes:

一功能性光學層，其配置一第一前側表面及一第二後側表面，且該功能性光學層由一第一材料製成； A functional optical layer configured with a first front side surface and a second back side surface, and the functional optical layer is made of a first material;

至少一彩色薄膜層，其用以配置於該功能性光學層之第一前側表面，而該彩色薄膜層由一染色材料製成，且該彩色薄膜層用以提供一預定顏色於該功能性光學層之第一前側表面上；及 At least one color film layer is disposed on the first front surface of the functional optical layer, and the color film layer is made of a dyeing material, and the color film layer is used to provide a predetermined color on the functional optical layer. on the first front surface of the layer; and

至少一外保護層，其用以保護貼附於該功能性光學層之彩色薄膜層，且該外保護層用以同時強化及保護於該功能性光學層之第一前側表面及彩色薄膜層上； At least one outer protective layer is used to protect the color film layer attached to the functional optical layer, and the outer protective layer is used to simultaneously strengthen and protect the first front side surface of the functional optical layer and the color film layer ;

其中該外保護層由一第二材料製成，且該外保護層之第二材料相容於該功能性光學層之第一材料，以便降低一總厚度。 The outer protective layer is made of a second material, and the second material of the outer protective layer is compatible with the first material of the functional optical layer so as to reduce an overall thickness.

本發明較佳實施例之該彩色薄膜層由一第三材料製成，且該外保護層之第二材料相容於該彩色薄膜層之第三材料。 In a preferred embodiment of the present invention, the color film layer is made of a third material, and the second material of the outer protective layer is compatible with the third material of the color film layer.

本發明較佳實施例之該彩色薄膜層之第三材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 In a preferred embodiment of the present invention, the third material of the color film layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof.

本發明較佳實施例之該外保護層之第二材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 In a preferred embodiment of the present invention, the second material of the outer protective layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof.

本發明較佳實施例之該功能性光學層之第一材料選自一聚碳酸酯材料、一聚甲基丙烯酸甲酯材料或其任意組合。 The first material of the functional optical layer in a preferred embodiment of the present invention is selected from a polycarbonate material, a polymethylmethacrylate material or any combination thereof.

為了達成上述目的，本發明較佳實施例之強化 結構之彩色光學透鏡裝置包含： In order to achieve the above object, the enhancement of the preferred embodiment of the present invention The structural color optical lens device includes:

一複合功能性光學層，其配置一第一前側表面及一第二後側表面，且該複合功能性光學層由一第一材料製成； A composite functional optical layer, which is configured with a first front side surface and a second back side surface, and the composite functional optical layer is made of a first material;

至少一彩色薄膜層，其用以配置於該複合功能性光學層之第一前側表面，而該彩色薄膜層由一染色材料製成，且該彩色薄膜層用以提供一預定顏色於該複合功能性光學層之第一前側表面上；及 At least one color film layer is disposed on the first front surface of the composite functional optical layer, and the color film layer is made of a dyeing material, and the color film layer is used to provide a predetermined color to the composite function on the first front surface of the flexible optical layer; and

至少一外保護層，其用以保護貼附於該複合功能性光學層之彩色薄膜層，且該外保護層用以同時強化及保護於該複合功能性光學層之第一前側表面及彩色薄膜層上； At least one outer protective layer is used to protect the color film layer attached to the composite functional optical layer, and the outer protective layer is used to simultaneously strengthen and protect the first front side surface and the color film of the composite functional optical layer. on layer;

其中該外保護層由一第二材料製成，且該外保護層之第二材料相容於該複合功能性光學層之第一材料，以便降低一總厚度。 The outer protective layer is made of a second material, and the second material of the outer protective layer is compatible with the first material of the composite functional optical layer so as to reduce an overall thickness.

本發明較佳實施例之該彩色薄膜層由一第三材料製成，且該外保護層之第二材料相容於該彩色薄膜層之第三材料。 In a preferred embodiment of the present invention, the color film layer is made of a third material, and the second material of the outer protective layer is compatible with the third material of the color film layer.

本發明較佳實施例之該彩色薄膜層之第三材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 In a preferred embodiment of the present invention, the third material of the color film layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof.

本發明較佳實施例之該外保護層之第二材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 In a preferred embodiment of the present invention, the second material of the outer protective layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof.

本發明較佳實施例之該複合功能性光學層之第一材料選自一聚碳酸酯材料、一聚甲基丙烯酸甲酯材料或其任意組合。 In a preferred embodiment of the present invention, the first material of the composite functional optical layer is selected from a polycarbonate material, a polymethylmethacrylate material or any combination thereof.

1a:彩色光學透鏡裝置 1a: Color optical lens device

1b:彩色光學透鏡裝置 1b: Color optical lens device

1c:彩色光學透鏡裝置 1c: Color optical lens device

1d:彩色光學透鏡裝置 1d: Color optical lens device

10:功能性光學層 10: Functional optical layer

10a:複合功能性光學層 10a: Composite functional optical layer

10b:曲面光學層 10b: Curved optical layer

11:第一前側表面 11: First front surface

12:第二後側表面 12:Second rear surface

20:彩色薄膜層 20:Colored film layer

21:彩色貼合層 21:Colored laminating layer

30:外保護層 30:Outer protective layer

301:貼合保護層 301: Fit protective layer

31:光學偏振層 31: Optical polarizing layer

32:表面微小結構 32:Surface microstructure

32a:第一微小結構圖案 32a: First microstructure pattern

32b:第二微小結構圖案 32b: Second microstructure pattern

32c:第三微小結構圖案 32c: The third microstructure pattern

32d:第四微小結構圖案 32d: The fourth microstructure pattern

第1圖：本發明第一較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖。 Figure 1: A schematic structural diagram of a color optical lens device with a reinforced structure according to the first preferred embodiment of the present invention.

第2圖：本發明第二較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖。 Figure 2: A schematic structural diagram of a color optical lens device with a reinforced structure according to the second preferred embodiment of the present invention.

第3圖：本發明第三較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖。 Figure 3: A schematic structural diagram of a color optical lens device with a reinforced structure according to the third preferred embodiment of the present invention.

第4圖：本發明第四較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖。 Figure 4: A schematic structural diagram of a color optical lens device with a reinforced structure according to the fourth preferred embodiment of the present invention.

第4A圖：本發明第四較佳實施例之強化結構之彩色光學透鏡裝置採用第一微小結構圖案之正視示意圖。 Figure 4A: A schematic front view of a reinforced structure colored optical lens device using a first microstructure pattern according to the fourth preferred embodiment of the present invention.

第4B圖：本發明第四較佳實施例之強化結構之彩色光學透鏡裝置採用第二微小結構圖案之正視示意圖。 Figure 4B: A schematic front view of a reinforced structure colored optical lens device using a second microstructure pattern according to the fourth preferred embodiment of the present invention.

第4C圖：本發明第四較佳實施例之強化結構之彩色光學透鏡裝置採用第三微小結構圖案之正視示意圖。 Figure 4C: A schematic front view of a reinforced structure colored optical lens device using a third microstructure pattern according to the fourth preferred embodiment of the present invention.

第4D圖：本發明第四較佳實施例之強化結構之彩色光學透鏡裝置採用第四微小結構圖案之正視示意圖。 Figure 4D: A schematic front view of a reinforced structure colored optical lens device using a fourth microstructure pattern according to the fourth preferred embodiment of the present invention.

為了充分瞭解本發明，於下文將舉例較佳實施例並配合所附圖式作詳細說明，且其並非用以限定本發明。 In order to fully understand the present invention, preferred embodiments will be exemplified and described in detail below with the accompanying drawings, which are not intended to limit the present invention.

本發明較佳實施例之強化結構之彩色光學透鏡裝置適用於各種眼鏡裝置〔glasses〕、各種墨鏡或太陽眼鏡裝置〔sunglasses〕、各種虛擬遊戲機穿戴眼鏡裝置、各種護目鏡裝置〔goggles〕、各種智慧眼鏡裝置〔smart glasses〕或其它光學眼鏡裝置，但其並非用以限定本發明之應用範圍。 The reinforced structure colored optical lens device of the preferred embodiment of the present invention is suitable for various eyewear devices (glasses), various sunglasses or sunglasses devices (sunglasses), various virtual game machine wearable eyewear devices, various goggles devices (goggles), various Smart glasses or other optical glasses devices are not used to limit the scope of application of the present invention.

第1圖揭示本發明第一較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖。請參照第1圖所示，舉例而言，本發明第一較佳實施例之強化結構之彩色光學透鏡裝置包含一功能性光學層10、至少一彩色薄膜層〔或彩色薄層〕20及至少一外保護層〔或強化保護層〕30，且該功能性光學層10、彩色薄膜層20及外保護層30組成一 彩色光學透鏡裝置1a。 Figure 1 shows a schematic structural diagram of a color optical lens device with a reinforced structure according to a first preferred embodiment of the present invention. Please refer to Figure 1. For example, the reinforced structure color optical lens device of the first preferred embodiment of the present invention includes a functional optical layer 10, at least one color film layer (or color thin layer) 20 and at least An outer protective layer [or reinforced protective layer] 30, and the functional optical layer 10, the color film layer 20 and the outer protective layer 30 form an Color optical lens device 1a.

請再參照第1圖所示，舉例而言，本發明另一較佳實施例之該功能性光學層10及彩色薄膜層20之間或彩色薄膜層20及外保護層30之間以適當技術手段〔例如：淋塗技術、噴塗技術或其它技術〕可選擇分別配置至少一光學增益材料層〔例如：底漆材料層或其它材料層〕。 Please refer to Figure 1 again. For example, in another preferred embodiment of the present invention, appropriate technology is used between the functional optical layer 10 and the color film layer 20 or between the color film layer 20 and the outer protective layer 30. The means (for example: shower coating technology, spray coating technology or other technologies) can optionally configure at least one optical gain material layer (for example: primer material layer or other material layer) respectively.

請再參照第1圖所示，舉例而言，於該功能性光學層10〔例如：基材層〕可適當選擇一第一材料製成，而該第一材料包含一無定性熱塑性材料〔例如：聚碳酸酯〔polycarbonate，PC〕、聚甲基丙烯酸甲酯〔poly(methyl methacrylate，PMMA〕或其任意組合或其它具類似玻璃特性之熱塑性材料〕。 Please refer to Figure 1 again. For example, the functional optical layer 10 (for example, the base material layer) can be made of a first material, and the first material includes an amorphous thermoplastic material (for example, a base material layer). : Polycarbonate [polycarbonate, PC], polymethyl methacrylate [poly(methyl methacrylate, PMMA) or any combination thereof or other thermoplastic materials with glass-like properties].

請再參照第1圖所示，舉例而言，於該功能性光學層10〔例如：基材層〕上配置一第一前側表面11及一第二後側表面12，且該功能性光學層10可選擇為一平面〔flat〕光學基材層、一曲面〔curved〕光學基材層或其它光學基材層。 Please refer to Figure 1 again. For example, a first front side surface 11 and a second back side surface 12 are disposed on the functional optical layer 10 (for example: base material layer), and the functional optical layer 10 can be selected as a flat optical base material layer, a curved optical base material layer or other optical base material layers.

請再參照第1圖所示，舉例而言，該功能性光學層10包含至少一UV吸收材料、至少一藍光吸收材料或其組合體，而該功能性光學層10可選自一抗反射層、一偏光層、一變色層、一抗藍光層、一抗藍紫外光層、一抗紅外線層或其它功能性薄膜層。 Please refer to Figure 1 again. For example, the functional optical layer 10 includes at least one UV absorbing material, at least one blue light absorbing material or a combination thereof, and the functional optical layer 10 can be selected from an anti-reflective layer. , a polarizing layer, a color-changing layer, an anti-blue light layer, an anti-blue ultraviolet light layer, an anti-infrared layer or other functional thin film layers.

請再參照第1圖所示，舉例而言，以適當技術手段將該彩色薄膜層20用以貼附於該功能性光學層10之第一前側表面11上，且該彩色薄膜層20具有一均勻薄膜厚度及其它薄膜尺寸規格。 Please refer to Figure 1 again, for example, the color film layer 20 is attached to the first front side surface 11 of the functional optical layer 10 using appropriate technical means, and the color film layer 20 has a Uniform film thickness and other film size specifications.

請再參照第1圖所示，舉例而言，該彩色薄膜層20由至少一有色材料〔colored material〕或一染料〔dye material〕製成，且該彩色薄膜層20用以提供一預定 顏色〔例如：灰色、墨綠色、棕色、黃色或其它顏色〕一預定圖案〔例如：彩虹〕、一預定符號、一預定數字或一預定文字於該功能性光學層10之第一前側表面11上，以便過濾減弱入射光的強度〔intensity〕於該功能性光學層10之一前側〔或外側〕。 Please refer to Figure 1 again. For example, the color film layer 20 is made of at least one colored material or a dye material, and the color film layer 20 is used to provide a predetermined Color (for example: gray, dark green, brown, yellow or other colors), a predetermined pattern (for example: rainbow), a predetermined symbol, a predetermined number or a predetermined text on the first front side surface 11 of the functional optical layer 10 , in order to filter and weaken the intensity of the incident light on one front side (or outside) of the functional optical layer 10 .

請再參照第1圖所示，舉例而言，該預定顏色包含一單一顏色或由數個顏色組成，而該預定圖案〔或符號、數字或文字〕包含一單一色圖案〔或符號、數字或文字〕、一多色圖案〔或符號、數字或文字〕、一複合色彩圖案〔或符號、數字或文字〕或其任意組合體。 Please refer to Figure 1 again. For example, the predetermined color includes a single color or consists of several colors, and the predetermined pattern [or symbol, number, or text] includes a single color pattern [or symbol, number, or text]. text], a multi-color pattern [or symbol, number or text], a composite color pattern [or symbol, number or text] or any combination thereof.

請再參照第1圖所示，舉例而言，以適當技術手段將該外保護層30用以保護貼附於該功能性光學層10之彩色薄膜層20上，且該外保護層30用以同時強化及保護於該功能性光學層10之第一前側表面及彩色薄膜層20上，以避免該功能性光學層10及彩色薄膜層20由一前側〔或外側〕發生各種刮傷，例如：異物刮傷或砂塵刮傷，或防止該彩色光學透鏡裝置1a發生碎裂。 Please refer to Figure 1 again, for example, the outer protective layer 30 is used to protect the color film layer 20 attached to the functional optical layer 10 using appropriate technical means, and the outer protective layer 30 is used to At the same time, the first front surface of the functional optical layer 10 and the color film layer 20 are strengthened and protected to prevent various scratches on the functional optical layer 10 and the color film layer 20 from the front side (or outside), such as: The color optical lens device 1a may be scratched by foreign matter or sand dust, or the color optical lens device 1a may be prevented from being broken.

請再參照第1圖所示，舉例而言，該外保護層30具有一均勻結構層厚度及其它結構層尺寸規格，而該外保護層30可適當選擇一第二材料製成，且該第二材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合，且該外保護層30可選自一抗刮保護層或其它抗刮材料保護層。 Please refer to Figure 1 again. For example, the outer protective layer 30 has a uniform structural layer thickness and other structural layer size specifications, and the outer protective layer 30 can be made of a second material appropriately selected, and the third The two materials are selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof, and the outer protective layer 30 can be selected from a scratch-resistant protective layer or other scratch-resistant material protective layer .

請再參照第1圖所示，舉例而言，該外保護層30之第二材料相容〔化學特性、物理特性或兩者〕於該功能性光學層10之第一材料，如此可提升該功能性光學層10之第一材料及該外保護層30之第二材料之間良好相容度，以便降低一總厚度及減少材料使用量。 Please refer to Figure 1 again. For example, the second material of the outer protective layer 30 is compatible (chemical properties, physical properties or both) with the first material of the functional optical layer 10, which can improve the The first material of the functional optical layer 10 and the second material of the outer protective layer 30 have good compatibility, so as to reduce the overall thickness and the amount of material used.

請再參照第1圖所示，舉例而言，在功能性上， 位於該功能性光學層10及外保護層30之間的該彩色薄膜層20可配置形成一貼合薄膜層，即該彩色薄膜層20兼具貼合及提供色彩功能，以便簡化其整體構造、降低一總厚度及減少材料使用量。 Please refer to Figure 1 again. For example, in terms of functionality, The color film layer 20 located between the functional optical layer 10 and the outer protective layer 30 can be configured to form a laminating film layer, that is, the color film layer 20 has both laminating and color-providing functions to simplify its overall structure. Reduce overall thickness and reduce material usage.

請再參照第1圖所示，舉例而言，該彩色薄膜層20可選擇由一第三材料製成，且該外保護層30之第二材料相容〔化學特性、物理特性或兩者〕於該彩色薄膜層20之第三材料，如此可提升該彩色薄膜層20之第三材料及該外保護層30之第二材料之間良好相容度，以便降低一總厚度及減少材料使用量，且該彩色薄膜層20之第三材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 Please refer to Figure 1 again. For example, the color film layer 20 can be made of a third material, and the second material of the outer protective layer 30 is compatible (chemical properties, physical properties or both). For the third material of the color film layer 20, this can improve the good compatibility between the third material of the color film layer 20 and the second material of the outer protective layer 30, so as to reduce the overall thickness and reduce the amount of material used. , and the third material of the color film layer 20 is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof.

請再參照第1圖所示，舉例而言，該彩色薄膜層20之第三材料〔圖案、符號、數字或文字〕可選擇由一成膜製程形成，且該成膜製程可選自彩色製程、噴印製程、移印製程、熱轉印製程或其它成膜製程。 Please refer to Figure 1 again. For example, the third material (pattern, symbol, number or text) of the color film layer 20 can be formed by a film-forming process, and the film-forming process can be selected from the color process. , jet printing process, pad printing process, thermal transfer printing process or other film forming processes.

第2圖揭示本發明第二較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖，其對應於第1圖之強化結構之彩色光學透鏡裝置。請參照第2圖所示，相對於第一實施例，本發明第二較佳實施例之強化結構之彩色光學透鏡裝置包含一複合功能性光學層10a、至少一彩色薄膜層〔或彩色薄層〕20、至少一貼合保護層301及至少一外保護層〔或強化保護層〕30，且該複合功能性光學層10a、彩色薄膜層20、貼合保護層301及外保護層30組成一彩色光學透鏡裝置1b。 Figure 2 shows a schematic structural diagram of a color optical lens device with a reinforced structure according to a second preferred embodiment of the present invention, which corresponds to the color optical lens device with a reinforced structure in Figure 1 . Please refer to Figure 2. Compared with the first embodiment, the reinforced structure color optical lens device of the second preferred embodiment of the present invention includes a composite functional optical layer 10a and at least one color film layer [or color thin layer] 20. At least one protective layer 301 and at least one outer protective layer (or reinforced protective layer) 30, and the composite functional optical layer 10a, the color film layer 20, the protective layer 301 and the outer protective layer 30 form a Color optical lens device 1b.

請再參照第2圖所示，舉例而言，該貼合保護層301用以保護貼附於該複合功能性光學層10a之彩色薄膜層20上，而該貼合保護層301之材料相容〔化學特性、物理特性或兩者〕於該外保護層30之第二材料及該彩色 薄膜層20之第三材料，以便簡化其整體構造、降低一總厚度及減少材料使用量。 Please refer to Figure 2 again. For example, the laminating protective layer 301 is used to protect the color film layer 20 attached to the composite functional optical layer 10a, and the materials of the laminating protective layer 301 are compatible with each other. [chemical properties, physical properties, or both] in the second material of the outer protective layer 30 and the color The third material of the thin film layer 20 is used to simplify its overall structure, reduce an overall thickness and reduce material usage.

請再參照第2圖所示，舉例而言，該貼合保護層301位於該彩色薄膜層20及外保護層30之間，而該貼合保護層301可適當選擇一貼合材料製成，且該貼合材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合相容材料。 Please refer to Figure 2 again. For example, the laminating protective layer 301 is located between the color film layer 20 and the outer protective layer 30, and the laminating protective layer 301 can be made of an appropriately selected laminating material. And the laminating material is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination of compatible materials thereof.

請再參照第2圖所示，舉例而言，該複合功能性光學層10a選自一抗反射層、一偏光層、一變色層、一抗藍光層、一抗藍紫外光層、一抗紅外線層或其任意組合層。 Please refer to Figure 2 again. For example, the composite functional optical layer 10a is selected from an anti-reflective layer, a polarizing layer, a color-changing layer, an anti-blue light layer, an anti-blue ultraviolet light layer, and an anti-infrared layer. layer or any combination thereof.

第3圖揭示本發明第三較佳實施例之強化結構之彩色光學透鏡裝置之結構示意圖，其對應於第1及2圖之強化結構之彩色光學透鏡裝置。請參照第3圖所示，相對於第一及第二實施例，本發明第三較佳實施例之強化結構之彩色光學透鏡裝置包含一曲面光學層〔曲面光學基材層〕10b、至少一彩色薄膜層〔或彩色薄層〕20、至少一彩色貼合層21及至少一外保護層〔或強化保護層〕30，且該曲面光學層10b、彩色薄膜層20及外保護層30組成一彩色光學透鏡裝置1c。 Figure 3 shows a schematic structural diagram of a color optical lens device with a reinforced structure according to a third preferred embodiment of the present invention, which corresponds to the color optical lens device with a reinforced structure in Figures 1 and 2 . Please refer to Figure 3. Compared with the first and second embodiments, the reinforced structure color optical lens device of the third preferred embodiment of the present invention includes a curved optical layer (curved optical base material layer) 10b, at least one Color film layer [or color thin layer] 20, at least one color lamination layer 21 and at least one outer protective layer [or reinforced protective layer] 30, and the curved optical layer 10b, color film layer 20 and outer protective layer 30 form a Color optical lens device 1c.

請再參照第3圖所示，舉例而言，該彩色貼合層21可適當選擇一貼合材料製成，且該彩色貼合層21位於該曲面光學層10b及彩色薄膜層20〔可選擇為染色薄膜層〕之間，以便增益該彩色薄膜層20之色彩，且該貼合材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合相容材料。 Please refer to Figure 3 again. For example, the color laminating layer 21 can be made of a suitable laminating material, and the color laminating layer 21 is located on the curved optical layer 10b and the color film layer 20 [optional] (dyed film layer) in order to enhance the color of the colored film layer 20, and the laminating material is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof. content material.

第4圖揭示本發明第四較佳實施例之彩色光學透鏡裝置之結構示意圖，其對應於第1、2及3圖之彩色光學透鏡裝置。請參照第4圖所示，相對於第一及第二實施 例，本發明第四較佳實施例之彩色光學透鏡裝置包含一功能性光學層10、至少一彩色薄膜層〔或彩色薄層〕20及至少一外保護層〔或強化保護層〕30，且該功能性光學層10、彩色薄膜層20及外保護層30組成一彩色光學透鏡裝置1d，以便簡化其整體構造及降低其總厚度。 Figure 4 shows a schematic structural diagram of a color optical lens device according to a fourth preferred embodiment of the present invention, which corresponds to the color optical lens devices in Figures 1, 2 and 3. Please refer to Figure 4, relative to the first and second implementations For example, the color optical lens device of the fourth preferred embodiment of the present invention includes a functional optical layer 10, at least one color film layer [or color thin layer] 20 and at least one outer protective layer [or reinforced protective layer] 30, and The functional optical layer 10, the color film layer 20 and the outer protective layer 30 form a color optical lens device 1d to simplify its overall structure and reduce its overall thickness.

請再參照第4圖所示，舉例而言，該外保護層30之一外表面具有至少一光學偏振層〔polarization layer〕31，如第4圖之虛線所示，而該光學偏振層31可選擇一體成型或另成型一單獨分隔層，且該光學偏振層31可選擇採用一押出成型加工方式、一熱押出成型加工方式、雷射光束加工或其類似技術手段成型。 Please refer to Figure 4 again. For example, an outer surface of the outer protective layer 30 has at least one optical polarization layer (polarization layer) 31, as shown by the dotted line in Figure 4, and the optical polarization layer 31 can The optical polarizing layer 31 can be integrally formed or formed as a separate separate layer, and the optical polarizing layer 31 can be formed by an extrusion molding process, a hot extrusion molding process, laser beam processing or similar technical means.

請再參照第4圖所示，舉例而言，該光學偏振層31包含至少一表面微小結構〔miniature structure〕32或至少一表面微結構〔microstructure〕。該表面微小結構32選自一凹槽狀微小結構、一溝狀微小結構、一稜柱狀微小結構、一凸條狀微小結構或其任意組合體。 Please refer to FIG. 4 again. For example, the optical polarizing layer 31 includes at least one surface microstructure (miniature structure) 32 or at least one surface microstructure (microstructure). The surface microstructure 32 is selected from a groove-shaped microstructure, a groove-shaped microstructure, a prism-shaped microstructure, a convex strip-shaped microstructure or any combination thereof.

第4A圖揭示本發明第四較佳實施例之彩色光學透鏡裝置採用第一微小結構圖案之正視示意圖，其對應於第4圖之光學偏振層及表面微小結構。請參照第4及4A圖所示，舉例而言，本發明第四較佳實施例之彩色光學透鏡裝置之該光學偏振層31選擇採用一預定圖案，而該預定圖案形成該表面微小結構32〔如第4圖所示〕，且該預定圖案由一第一微小結構圖案32a形成，且該第一微小結構圖案32a為一斜向平行溝槽圖案或其類似陣列構造圖案。 Figure 4A shows a schematic front view of a color optical lens device using a first microstructure pattern according to a fourth preferred embodiment of the present invention, which corresponds to the optical polarizing layer and surface microstructures in Figure 4A. Please refer to Figures 4 and 4A. For example, the optical polarizing layer 31 of the color optical lens device of the fourth preferred embodiment of the present invention adopts a predetermined pattern, and the predetermined pattern forms the surface microstructure 32 [ As shown in Figure 4], the predetermined pattern is formed by a first microstructure pattern 32a, and the first microstructure pattern 32a is an oblique parallel trench pattern or its similar array structure pattern.

第4B圖揭示本發明第四較佳實施例之彩色光學透鏡裝置採用第二微小結構圖案之正視示意圖，其對應於第4A圖之微小結構圖案。請參照第4及4B圖所示，舉例而言，本發明較佳實施例之彩色光學透鏡裝置之該光學偏振層31選擇採用一預定圖案，而該預定圖案形成該表面 微小結構32〔如第4圖所示〕，且該預定圖案由一第二微小結構圖案32b形成，且該第二微小結構圖案32c為一圓點陣列圖案或其類似圓點陣列構造圖案。 Figure 4B shows a schematic front view of the color optical lens device using a second microstructure pattern according to the fourth preferred embodiment of the present invention, which corresponds to the microstructure pattern in Figure 4A. Please refer to Figures 4 and 4B. For example, the optical polarizing layer 31 of the color optical lens device according to the preferred embodiment of the present invention adopts a predetermined pattern, and the predetermined pattern forms the surface Microstructure 32 [as shown in Figure 4], and the predetermined pattern is formed by a second microstructure pattern 32b, and the second microstructure pattern 32c is a dot array pattern or a similar dot array structure pattern.

第4C圖揭示本發明第四較佳實施例之彩色光學透鏡裝置採用第三微小結構圖案之正視示意圖，其對應於第4A及4B圖之微小結構圖案。請參照第4及4C圖所示，舉例而言，本發明較佳實施例之彩色光學透鏡裝置之該光學偏振層31選擇採用一預定圖案，而該預定圖案形成該表面微小結構32〔如第4圖所示〕，且該預定圖案由一第三微小結構圖案32c形成，且該第三微小結構圖案32c為一橢圓點陣列圖案或其類似橢圓點陣列構造圖案。 Figure 4C shows a schematic front view of the color optical lens device using a third microstructure pattern according to the fourth preferred embodiment of the present invention, which corresponds to the microstructure patterns in Figures 4A and 4B. Please refer to Figures 4 and 4C. For example, the optical polarizing layer 31 of the color optical lens device according to the preferred embodiment of the present invention adopts a predetermined pattern, and the predetermined pattern forms the surface microstructure 32 (as shown in Figure 4). 4], and the predetermined pattern is formed by a third microstructure pattern 32c, and the third microstructure pattern 32c is an elliptical dot array pattern or its similar elliptical dot array structural pattern.

第4D圖揭示本發明第四較佳實施例之彩色光學透鏡裝置採用第四微小結構圖案之正視示意圖，其對應於第4A至4C圖之微小結構圖案。請參照第4及4D圖所示，舉例而言，本發明較佳實施例之彩色光學透鏡裝置之該光學偏振層31選擇採用一預定圖案，而該預定圖案形成該表面微小結構32〔如第4圖所示〕，且該預定圖案由一第四微小結構圖案32d形成，且該第四微小結構圖案32d為一方塊陣列圖案或其類似方塊陣列構造圖案。 Figure 4D reveals a schematic front view of the color optical lens device using a fourth microstructure pattern according to the fourth preferred embodiment of the present invention, which corresponds to the microstructure patterns in Figures 4A to 4C. Please refer to Figures 4 and 4D. For example, the optical polarizing layer 31 of the color optical lens device according to the preferred embodiment of the present invention adopts a predetermined pattern, and the predetermined pattern forms the surface microstructure 32 (as shown in Figure 4). 4], and the predetermined pattern is formed by a fourth microstructure pattern 32d, and the fourth microstructure pattern 32d is a square array pattern or a similar square array structure pattern.

請再參照第4A至4D圖所示，舉例而言，本發明第四較佳實施例之彩色光學透鏡裝置之該光學偏振層31可選擇該預定圖案由各種微小結構圖案形成，且該預定圖案選自一同心圓圖案、一柵欄圖案、一字體圖案或其任意組合體。 Please refer to Figures 4A to 4D again. For example, the optical polarizing layer 31 of the color optical lens device according to the fourth preferred embodiment of the present invention can select the predetermined pattern to be formed from various micro structural patterns, and the predetermined pattern Choose from a concentric circle pattern, a fence pattern, a font pattern, or any combination thereof.

前述較佳實施例僅舉例說明本發明及其技術特徵，該實施例之技術仍可適當進行各種實質等效修飾及/或替換方式予以實施；因此，本發明之權利範圍須視後附申請專利範圍所界定之範圍為準。本案著作權限制使用於中華民國專利申請用途。 The foregoing preferred embodiments only illustrate the present invention and its technical features. The technology of this embodiment can still be appropriately implemented with various substantially equivalent modifications and/or substitutions; therefore, the scope of rights of the present invention shall depend on the appended patent application. The scope defined shall prevail. The copyright in this case is restricted to use for patent applications in the Republic of China.

1a:彩色光學透鏡裝置 1a: Color optical lens device

10:功能性光學層 10: Functional optical layer

11:第一前側表面 11: First front surface

12:第二後側表面 12:Second rear surface

20:彩色薄膜層 20:Colored film layer

30:外保護層 30:Outer protective layer

Claims (10)

一種強化結構之彩色光學透鏡裝置，其包含： A reinforced structure colored optical lens device, which includes: 一功能性光學層，其配置一第一前側表面及一第二後側表面，且該功能性光學層由一第一材料製成； A functional optical layer configured with a first front side surface and a second back side surface, and the functional optical layer is made of a first material; 至少一彩色薄膜層，其用以配置於該功能性光學層之第一前側表面，而該彩色薄膜層由一染色材料製成，且該彩色薄膜層用以提供一預定顏色於該功能性光學層之第一前側表面上；及 At least one color film layer is disposed on the first front surface of the functional optical layer, and the color film layer is made of a dyeing material, and the color film layer is used to provide a predetermined color on the functional optical layer. on the first front surface of the layer; and 至少一外保護層，其用以保護貼附於該功能性光學層之彩色薄膜層，且該外保護層用以同時強化及保護於該功能性光學層之第一前側表面及彩色薄膜層上； At least one outer protective layer is used to protect the color film layer attached to the functional optical layer, and the outer protective layer is used to simultaneously strengthen and protect the first front side surface of the functional optical layer and the color film layer ; 其中該外保護層由一第二材料製成，且該外保護層之第二材料相容於該功能性光學層之第一材料，以便降低一總厚度。 The outer protective layer is made of a second material, and the second material of the outer protective layer is compatible with the first material of the functional optical layer so as to reduce an overall thickness. 依申請專利範圍第1項所述之強化結構之彩色光學透鏡裝置，其中該彩色薄膜層由一第三材料製成，且該外保護層之第二材料相容於該彩色薄膜層之第三材料。 The reinforced structure color optical lens device according to item 1 of the patent application, wherein the color film layer is made of a third material, and the second material of the outer protective layer is compatible with the third color film layer Material. 依申請專利範圍第2項所述之強化結構之彩色光學透鏡裝置，其中該彩色薄膜層之第三材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 According to the reinforced structure color optical lens device described in item 2 of the patent application, the third material of the color film layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof. 依申請專利範圍第1項所述之強化結構之彩色光學透鏡裝置，其中該外保護層之第二材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 According to the reinforced structure colored optical lens device described in item 1 of the patent application, the second material of the outer protective layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof. 依申請專利範圍第1項所述之強化結構之彩色光學透鏡裝置，其中該功能性光學層之第一材料選自一聚碳酸酯材料、一聚甲基丙烯酸甲酯材料或其任意組合。 According to the reinforced structure colored optical lens device described in item 1 of the patent application, the first material of the functional optical layer is selected from a polycarbonate material, a polymethylmethacrylate material or any combination thereof. 一種強化結構之彩色光學透鏡裝置，其包含： A reinforced structure colored optical lens device, which includes: 一複合功能性光學層，其配置一第一前側表面及一第二 後側表面，且該複合功能性光學層由一第一材料製成； A composite functional optical layer configured with a first front side surface and a second The rear side surface, and the composite functional optical layer is made of a first material; 至少一彩色薄膜層，其用以配置於該複合功能性光學層之第一前側表面，而該彩色薄膜層由一染色材料製成，且該彩色薄膜層用以提供一預定顏色於該複合功能性光學層之第一前側表面上；及 At least one color film layer is disposed on the first front surface of the composite functional optical layer, and the color film layer is made of a dyeing material, and the color film layer is used to provide a predetermined color to the composite function on the first front surface of the flexible optical layer; and 至少一外保護層，其用以保護貼附於該複合功能性光學層之彩色薄膜層，且該外保護層用以同時強化及保護於該複合功能性光學層之第一前側表面及彩色薄膜層上； At least one outer protective layer is used to protect the color film layer attached to the composite functional optical layer, and the outer protective layer is used to simultaneously strengthen and protect the first front side surface and the color film of the composite functional optical layer. on layer; 其中該外保護層由一第二材料製成，且該外保護層之第二材料相容於該複合功能性光學層之第一材料，以便降低一總厚度。 The outer protective layer is made of a second material, and the second material of the outer protective layer is compatible with the first material of the composite functional optical layer so as to reduce an overall thickness. 依申請專利範圍第6項所述之強化結構之彩色光學透鏡裝置，其中該彩色薄膜層由一第三材料製成，且該外保護層之第二材料相容於該彩色薄膜層之第三材料。 The reinforced structure color optical lens device according to item 6 of the patent application, wherein the color film layer is made of a third material, and the second material of the outer protective layer is compatible with the third color film layer Material. 依申請專利範圍第7項所述之強化結構之彩色光學透鏡裝置，其中該彩色薄膜層之第三材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 According to the reinforced structure color optical lens device described in item 7 of the patent application, the third material of the color film layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof. 依申請專利範圍第6項所述之強化結構之彩色光學透鏡裝置，其中該外保護層之第二材料選自一壓克力材料、一聚胺酯材料、一環氧樹脂材料、一矽樹脂材料或其任意組合。 According to the reinforced structure colored optical lens device described in item 6 of the patent application, the second material of the outer protective layer is selected from an acrylic material, a polyurethane material, an epoxy resin material, a silicone resin material or any combination thereof. 依申請專利範圍第6項所述之強化結構之彩色光學透鏡裝置，其中該複合功能性光學層之第一材料選自一聚碳酸酯材料、一聚甲基丙烯酸甲酯材料或其任意組合。 According to the reinforced structure colored optical lens device described in item 6 of the patent application, the first material of the composite functional optical layer is selected from a polycarbonate material, a polymethylmethacrylate material or any combination thereof.

Images