CN103317950A - Three-dimensional pattern window glass and manufacturing method thereof - Google Patents

Three-dimensional pattern window glass and manufacturing method thereof Download PDF

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CN103317950A
CN103317950A CN2013102117369A CN201310211736A CN103317950A CN 103317950 A CN103317950 A CN 103317950A CN 2013102117369 A CN2013102117369 A CN 2013102117369A CN 201310211736 A CN201310211736 A CN 201310211736A CN 103317950 A CN103317950 A CN 103317950A
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transparent
sheet
film
dimensional pattern
window glass
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CN2013102117369A
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CN103317950B (en
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杨建明
张瑞恒
杨过
吴小明
谢守德
王长明
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东莞劲胜精密组件股份有限公司
东莞华清光学科技有限公司
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Abstract

The invention discloses three-dimensional pattern window glass and a manufacturing method thereof. The manufacturing method comprises the following steps of processing three-dimensional patterns on the surface of a transparent sheet by a UV transfer printing technology, coating one, two or more transparent color films on the three-dimensional patterns in vacuum, carrying out silk-screen printing of a first ink layer of preset patterns on the transparent color films, covering the transparent color films needing to be retained, putting the transparent sheet subjected to silk-screen printing into a stripping solution, carrying out stripping, removing the needless transparent color films, carrying out punching according to a preset shape to obtain the transparent sheet having a required shape, and pasting a three-dimensional pattern-less surface of the punched transparent sheet to window glass to obtain the three-dimensional pattern window glass having a three-dimensional pattern visual effect. The three-dimensional pattern window glass is obtained by the manufacturing method. Compared with the prior art, the manufacturing method realizes that the right side of the three-dimensional pattern window glass has real three-dimensional pattern visual effects, is not damaged and is not depreciated.

Description

立体纹视窗玻璃的制造方法及立体纹视窗玻璃 The method of manufacturing a window glass groove perspective perspective lines and window glass

技术领域 FIELD

[0001] 本发明涉及立体纹视窗玻璃的制造方法及立体纹视窗玻璃。 [0001] The present invention relates to a method for producing three-dimensional pattern and texture perspective window glass of the window glass.

背景技术 Background technique

[0002] 随着近年来智能手机的崛起,大屏触屏越来越成为主流。 [0002] In recent years, with the rise of smart phones, big-screen touch-screen increasingly become mainstream. 手机正面的玻璃屏幕作为与用户接触最密切的一面,在手机屏幕玻璃表面上的装饰成被品牌商越来越重视。 Glass front of the phone screen as a user contact with the closest side, the phone screen on a glass surface decoration brands to be more and more attention.

[0003] 在玻璃表面进行装饰向来为行业难题,主要有良率低、可装饰效果少等不足。 [0003] decorated for the industry has always been a problem, mainly in low yield, less decorative effects may be less than the glass surface. 目前对视窗玻璃的装饰大多采用在视窗玻璃的内侧或外侧直接进行印刷,或者在视窗玻璃的外侧通过机械加工或UV转印获得具有立体效果的纹理。 Most of the current window glass for decorative use inside or outside of the window glass is directly printed, or outside the window glass having a textured three-dimensional effect is obtained by machining or UV transfer. 前一种方式所印刷出的装饰图案不具有立体感、色彩也相对单一;后一种方式虽然能够获得具有立体感的纹理,但是由于视窗玻璃长期与人手或其他物体接触、摩擦,即使采用价格昂贵的高硬度材料,也容易磨损而显得陈旧,且成本过高。 The former approach printed decorative pattern does not have a three-dimensional, color is relatively simple; although the latter embodiment can be obtained a stereoscopic texture, but because of prolonged contact with the human hand window glass or other objects, friction, even if the price expensive high hardness materials, but also easy to wear and become obsolete, and the cost is too high.

发明内容 SUMMARY

[0004] 本发明所要解决的技术问题是,针对上述缺陷,提供一种立体纹视窗玻璃的制造方法及立体纹视窗玻璃,其具有真实、立体的立体纹视觉效果,且成本低、不易磨损。 [0004] The present invention solves the technical problem, for the above-mentioned drawbacks, to provide a method and a three-dimensional pattern window glass A stereoscopic pattern window glass, which has a true three-dimensional stereoscopic pattern visual effects, and low cost, easy to wear.

[0005] 名词解释:本发明所称的立体纹是指通过转印模具形成的立体纹路,包括但不限于拉丝纹、CD纹、雾面、亮面纹路等纹路。 [0005] Glossary: ​​The present invention refers to a pattern referred perspective perspective lines formed by the transfer mold, drawing lines including but not limited to, CD profile, matte, glossy texture like texture.

[0006] 本发明的技术问题通过以下技术手段予以解决: [0006] The present invention technical problem to be addressed by the following technologies:

[0007] 一种立体纹视窗玻璃的制造方法,包括以下步骤: [0007] A method for manufacturing a three-dimensional pattern of the window glass, comprising the steps of:

[0008] UV转印:在透明片材表面进行UV转印以在片材表面形成立体纹; [0008] UV transfer: a UV transfer surface of the transparent sheet to form a three-dimensional pattern in the surface of the sheet;

[0009] 真空镀膜:在所述透明片材形成有立体纹的面进行真空镀膜以形成一层、两层或多层透明色彩膜层; [0009] Vacuum coating: a three-dimensional pattern is formed on a surface of the transparent sheet for vacuum coating to form a layer, two or more layers of transparent color film;

[0010] 第一丝印步骤:在所述透明色彩膜层表面丝印预定图案的第一油墨层; [0010] a first screen printing step: a first ink layer of the transparent color screen printing a predetermined pattern in the surface of the film;

[0011] 退镀:将经所述第一丝印步骤后的透明片材置于退镀液中进行退镀; [0011] The stripping: stripping will be placed in the electrolyte solution through the transparent sheet after the first step of screen printing;

[0012] 冲切:将退镀后的透明片材根据预定的外形进行冲切; [0012] Punching: the transparent sheet stripping after the punching according to a predetermined shape;

[0013] 贴合:将冲切好的透明片材不具有立体纹的面与视窗玻璃进行贴合从而获得具有立体纹视觉效果的视窗玻璃。 [0013] bonding: the die-cut transparent sheet having no three-dimensional pattern of the surface of the window glass are bonded together to obtain a glass window having a stereoscopic pattern visual effect.

[0014] 与现有技术相比,本发明的上述技术方案首先在透明片材上形成立体纹,并利用真空镀膜在立体纹上形成透明色彩膜层,然后利用油墨层作为衬底,最后将透明片材未转印立体纹的光滑面与视窗玻璃贴合成一体。 [0014] Compared with the prior art, the technical scheme of the present invention is first formed on a transparent sheet dimensional pattern, and forming a color layer on a transparent perspective groove by vacuum coating, and then use an ink layer as a substrate, and finally untransferred transparent sheet perspective smooth groove surface integrally attached to the glass windows. 由于立体纹是真实存在的,而且透明色彩膜层形成于立体纹上,配合作为视觉背景的衬底,因而在视窗玻璃的正面能够获得真实的立体纹视觉效果,但由于立体纹位于视窗玻璃的内侧,不与任何物体发生摩擦,因而不会被损坏、折旧。 Since the three-dimensional pattern is real, and a transparent film layer formed on the three-dimensional color pattern, with the visual background as the substrate, and thus the front window glass to obtain the real three-dimensional visual effect profile, but the three-dimensional pattern of the window glass is located inner, friction does not occur with any object, and thus will not be damaged, depreciation.

[0015] 优选地: [0015] Preferably:

[0016] 所述退镀与冲切之间还包括第二丝印步骤:透明片材形成有立体纹的面丝印图案和/或第二油墨层。 [0016] The back screen further comprises a second step and between plated punched: a transparent sheet formed with a screen surface of the three-dimensional pattern of lines and / or the second ink layer. 若退镀后无需丝印其他图案,则可直接丝印一层对镀层起保护作用的油墨层;若需要印刷其他图案(例如商标、产品型号、logo等),则在第一丝印步骤的图案中设置预留空隙,退镀后进行印刷,印刷好图案后依旧可以丝印一层保护层。 If the screen without stripping other patterns, can be directly on the coating layer of screen printing ink layer from the protective effect; if desired other printed patterns (such as trademarks, product model, logo, etc.), a first screen is provided on the patterning step of reserving the voids, printing is performed after stripping, a good pattern after printing can still silk protective layer.

[0017] 所述透明片材为PET(中文全称:聚对苯二甲酸乙二醇酯)片材。 The [0017] transparent sheet of PET (Chinese name: polyethylene terephthalate) sheet.

[0018] 所述第一油墨层和第二油墨层的油墨均为黑色油墨。 [0018] The ink of the first ink layer and the second ink layer are black ink.

[0019] 所述透明色彩膜层自内向外依次包括(即自UV胶向外依次为):100〜160nm厚的SiO2膜层、40〜60nm厚的Ti3O5膜层和30〜40nm厚的SiO2膜层。 [0019] The color of the transparent film layer sequentially includes an inner outwardly from (i.e., outwardly from the order of UV adhesive): 100~160nm thick SiO2 film, 40~60nm Ti3O5 thick film layer and thick SiO2 film 30~40nm Floor. 本优选方案的透明色彩膜层厚度及材料组合能够形成金色的立体纹路视觉效果。 Transparent Color film thickness and the composition of the present embodiment is preferably a material capable of forming a three-dimensional lines golden visual effect.

[0020] 所述透明色彩膜层自内向外依次包括(即自UV胶向外依次为):60〜80nm厚的SiO2膜层、25〜35nm厚的Ti3O5膜层和15〜25nm厚的SiO2膜层。 [0020] The Transparent Color film layer includes, in order outward from the inner (i.e., outwardly from the order of UV adhesive): 60~80nm thick SiO2 film, 25~35nm Ti3O5 thick film layer and thick SiO2 film 15~25nm Floor. 本优选方案的透明色彩膜层厚度及材料组合能够形成宝蓝色的立体纹路视觉效果。 Transparent Color film thickness and the composition of the present embodiment is preferably a material capable of forming a three-dimensional lines navy blue visual effect.

[0021] 所述透明色彩膜层自内向外依次包括(即自UV胶向外依次为):15〜20nm厚的Ti3O5膜层、13〜20nm厚的SiO2膜层和15〜20nm厚的Ti3O5膜层。 [0021] The color of the transparent film layer sequentially includes an inner outwardly from (i.e., outwardly from the order of UV adhesive): 15~20nm Ti3O5 thick film layer, 13~20nm 15~20nm thick SiO2 film and thick film Ti3O5 Floor. 本优选方案的透明色彩膜层厚度及材料组合能够形成紫色的立体纹路视觉效果。 Transparent Color film thickness and the composition of the present embodiment is preferably a material capable of forming a three-dimensional lines violet visual effect.

[0022] 所述UV转印包括以下步骤:1)将UV胶水通过丝印的方式印到具有立体纹路的转印模具上;2)将透明片材放置在转印模具上进行压合,然后在20〜25°C下放置3〜5分钟;3)将透明片材和转印模具置于光固机中进行光固,光固温度不超过50°C,UV灯能量密度为300〜500mj/cm2 ;4)脱模得到转印有立体纹的透明片材。 [0022] The UV transfer comprising the steps of: 1) by silk screen printing a UV glue manner onto the transfer mold having a three-dimensional lines; 2) the transparent sheet is placed on the transfer nip mold, then placed 3 to 5 minutes at 20~25 ° C; 3) and the transparent sheet mold was placed in a transfer machine for curing light curing, curing temperature does not exceed 50 ° C, UV lamp energy density 300~500mj / cm2; 4) a transparent release sheet to give a three-dimensional pattern is transferred.

[0023] 所述第一丝印步骤和第二丝印步骤的印刷厚度为5〜10 μ m,烘烤温度为50〜80°C,烘烤时间为10〜20分钟。 [0023] The thickness of the first screen printing step and the second screen printing step is 5~10 μ m, the baking temperature is 50~80 ° C, baking time of 10-20 minutes. 该厚度的油墨层配合透明色彩膜层对光线的反射和透射效果能够使得立体纹的立体感更加强烈,产品视觉效果更显高贵。 The ink layer with a thickness of the transparent color layers of light reflection and transmission effects such stereoscopic three-dimensional pattern can be more intense, more noble products visual effect.

[0024] 一种立体纹手机视窗玻璃,其制造方法为前述的任意一项。 [0024] A three-dimensional pattern phone window glass, a manufacturing method according to any one of the foregoing. 本发明的立体纹手机视窗玻璃具有真实、立体的立体纹视觉效果,且成本低、不易磨损。 Dimensional pattern phone window glass of the present invention has a true three-dimensional pattern of three-dimensional visual effect, and low cost, easy to wear.

附图说明 BRIEF DESCRIPTION

[0025] 图1是本发明具体实施例的制造方法的流程图; [0025] FIG. 1 is a flowchart of a method for producing a specific embodiment of the present invention;

[0026] 图2是本发明具体实施例的立体纹视窗玻璃的结构示意图。 [0026] FIG. 2 is a perspective schematic view of the window glass groove of the specific embodiments of the present invention.

具体实施方式 Detailed ways

[0027] 下面对照附图并结合优选的实施方式对本发明作进一步说明。 In conjunction with the accompanying drawings of the preferred embodiments of the present invention will be further described [0027] below with reference.

[0028] 如图1所示,一种立体纹视窗玻璃的制造方法,用于制备包括但不限于下述产品的视窗玻璃:手机、电脑、平版电脑、电视、播放器等产品的视窗玻璃,该制造方法包括下述步骤:利用UV转印技术在透明片材的表面形成立体纹;在立体纹上真空镀膜形成一层、两侧或多层透明色彩膜层;在透明色彩膜层上丝印预定图案的第一油墨层,覆盖需要保留的透明色彩膜层;将丝印后透明片材置于退镀液中进行退镀,清除不需要的透明色彩膜层;然后按照预定的外形进行冲切以获得需要的尺寸;最后将冲切好的透明片材不具有立体纹的面与视窗玻璃进行贴合从而获得具有立体纹视觉效果的视窗玻璃。 , The method of manufacturing a window glass of a stereoscopic pattern for the preparation of products including but not limited to window glass [0028] 1: mobile phones, computers, lithographic computers, televisions, players and other products of the window glass, the method comprising the steps of: using a UV pattern transfer technique for forming three-dimensional surface of the transparent sheet; vacuum coating forming a layer or layers on both sides of the transparent color pattern layer on perspective; color screen printing on the transparent film layer a first ink layer of a predetermined pattern, covered with a transparent color film to be retained; after screen printing the transparent sheet was placed in a bath for stripping back, remove unwanted color transparent film; and then punched in a predetermined shape to obtain a desired size; finally die-cut transparent sheet having no three-dimensional pattern of the surface of the window glass are bonded together to obtain a glass window having a stereoscopic pattern visual effect. 作为一种优选的方案,在退镀与冲切步骤之间还可在透明片材形成有立体纹的面丝印图案和/或第二油墨层。 As a preferred embodiment, a three-dimensional surface profile screen pattern and / or the second ink layer may also be formed between the transparent sheet and punching the stripping step. [0029] 更加具体的实施例中: [0029] In a more specific embodiment:

[0030] UV转印包括以下步骤:1)开模(即制作转印模具):模具上要做出UV转印时的立体纹(例如:竖直拉丝纹路),以及定位柱和印刷油墨时的定位孔;2)转印:将UV胶水通过丝印的方式印到转印模具上;3)压合:将PET片材放到转印模具上,再用胶棍将片材紧压到转印模具上,压合后的UV胶与PET片材需要在20〜25°C的温度下放置3〜5分钟;4)光固:将片材和转印模具放到光固机中进行光固,光固机中的温度不可以超过50°C,UV灯能量密度为300〜500mj/cm2 ;5)脱模:将转印好的产品从模具上取出即可。 [0030] UV transfer comprising the steps of: a) opening the mold (i.e., making the transfer mold): perspective pattern (for example, made of UV transferred to the upper mold: Drawing vertical lines), and the positioning posts and a printing ink positioning holes; 2) transfer: by screen printing a UV glue manner onto the transfer mold; 3) pressing: the PET sheet onto the mold is transferred, and then pressed against the glue stick into the sheet transfer printed on the mold, after the nip UV adhesive PET sheet needs to be placed at a temperature of 20~25 ° C in 3 to 5 minutes; 4) curing: the mold is transferred onto the sheet and curing machine for light solid, light aircraft may not exceed the temperature of 50 ° C, UV lamp energy density 300~500mj / cm2; 5) release: the transfer can be a good product removed from the mold. 其中PET片材为透明片材,但本发明并不限于PET片材,在满足透光率的情况下可采用其他透明的片材。 Wherein the transparent sheet is a PET sheet, but the present invention is not limited to PET sheet, other transparent sheet may be employed in the case of satisfying the light transmittance.

[0031] 真空镀膜包括JEPET片材用胶布粘贴到镀膜机真空腔室内,PET片材印有立体纹的那一面朝外,再通过真空泵把真空腔的空气抽走,使之压力保持在0.002Pa到0.006Pa之间,一个较佳的压力数值是0.004Pa。 [0031] JEPET vacuum coating comprises a sheet attached with tape to a vacuum chamber coaters, PET sheet printed with patterns that side perspective outwardly, and then air in the vacuum chamber by a vacuum pump to take away, so that pressure was kept at 0.002 Pa between 0.006Pa, a preferred pressure value is 0.004Pa. 需要用来镀膜的SiO2与Ti3O5应该先于PET片材放入在真空腔室里面的蒸发源上。 Needed to SiO2 and Ti3O5 coating prior to the PET sheet should be placed on the inside of the vacuum chamber of the evaporation source. 之后即可以进行镀膜,在转印的立体纹表面形成透明色彩膜层。 Which can then be coated to form a film on the transparent color of the surface of the transfer groove perspective.

[0032] 第一丝印步骤:把经真空镀膜后的PET片材用油墨进行丝网印刷,油墨优选黑色油墨,本例采用的是帝国IPX-971黑色油墨,丝印网版需根据欲获得的立体纹图案形状来制作,仅在需要保留的透明色彩膜层上印刷油墨,而诸如视窗、感光孔等位置则不印刷油墨,除却上述位置外,同时还可以留出部分位置不做印刷使之经以下工序处理后有其它图案效果。 [0032] a first screen printing step: after the PET sheet by vacuum coating by screen printing ink, the ink is preferably a black ink, the present embodiment is used in imperial IPX-971 black ink, silk screen needs to be obtained according to the stereoscopic to produce the pattern shape pattern, the printing ink is only required to retain a transparent color film, such as the position of the window, holes, etc. are not photosensitive printing ink, except for the above-mentioned positions, but also can not leave the location part by printing so as the following post-treatment step other pattern effects. 印刷厚度在5〜10 μ m,烘烤温度为50〜80°C,烘烤时间为10〜20分钟。 The print thickness 5~10 μ m, the baking temperature is 50~80 ° C, baking time of 10-20 minutes.

[0033] 退镀:把经第一丝印步骤处理后的PET片材用放入常温的装有退镀剂:水=1:10的退镀液的水槽中漂洗5-10秒钟,PET片材没有丝印油墨的位置上的镀膜层即可被溶解掉,再以清水清洗之后放置于50°C的烤炉内烘烤3-5分钟即完成退镀。 [0033] The stripping: after the PET sheet by screen printing a first processing step of stripping agent was put into a room temperature: water = 1: 10 of the bath tub back rinsed for 5-10 seconds, PET sheet plated layer at the position of the screen printing ink sheet can not be dissolved away, then placed in clean water after oven bake at 50 ° C for 3-5 minutes to complete stripping.

[0034] 第二丝印步骤:把经退镀后的PET片材用油墨进行丝网印刷以形成对透明色彩膜层起保护作用的油墨层,本例采用的油墨与第一丝印步骤相同,网版也与第一丝印步骤相同,印刷厚度在10〜20um,烘烤温度为50〜80°C,烘烤时间为20〜30分钟。 [0034] a second screen printing step: by the PET sheet after the back coating screen printed ink layer to form an ink layer of protective transparent color, identical to the first screen printing ink according to the present embodiment uses the step, the network version is also similar to the first step of silk screen printing in a thickness 10~20um, baking temperature is 50~80 ° C, the baking time is 20 to 30 minutes. 作为一种优选方案,第二丝印步骤还可在第一丝印步骤预留的位置上进行商标、logo或其他特殊图案的丝印,丝印后再丝印其保护作用的油墨。 As a preferred embodiment, the second step may be silk screen trademark, logo, or other specific pattern in a first position reserved for screen printing step, silk screen printing and then the protective effect of the ink. 当然,作为一种可选方案,也可不丝印起保护作用的油墨层,而仅仅丝印需要的特殊图案后即进步下一步骤。 Of course, as an alternative, the screen may not be protected from the ink layer effect, but only a special symbol after the desired screen advances to the next step.

[0035] 冲切:把经丝印后的PET片材放到冲压机上,在此之前需根据手机视窗形状制作相应模具,然后在适当的压力下PET片材即可以被冲切出所需要的手机视窗外形。 [0035] Punching: the PET sheet by the screen printing placed on the press, before the mold according to need to produce the corresponding phone window shape, and at a suitable pressure PET sheet which can be punched out the desired phone window shape.

[0036] 贴合:把冲切好的PET手机视窗片材的背面(没有转印立体纹的一面)与相同形状的手机屏幕玻璃用光学胶(Optically Clear Adhesive,缩略词:0CA)贴合起来即造出所需成品。 [0036] bonded: die-cut to the back of the phone window PET sheet (without a transfer groove side perspective) and the mobile phone screen glass with the same shape as the optical adhesive (Optically Clear Adhesive, acronyms: 0CA) bonded i.e. together create the desired finished product.

[0037] 如图2所示,本实施例制备的立体纹视窗玻璃包括下述结构层:玻璃100、通过光学胶粘结在玻璃上的PET200、转印在PET上的具有立体纹的UV胶层300、镀在UV胶层的透明色彩膜层400、以及丝印在透明色彩膜层上的油墨层500,图2中,各个层均位于玻璃100的外周,玻璃100中间空白之处为视窗。 [0037] 2, the window glass groove perspective prepared in Example of the present embodiment comprises the following layer structure: UV 100 laminated glass, optical glue bonding PET200 on glass, having a three-dimensional pattern in the transfer of PET layer 300, a transparent color film coating UV glue layer 400, and screen printing ink color layer on a transparent film layer 500, in FIG. 2, the respective layers are located on the outer periphery of the glass 100, glass 100 is intermediate gaps in windows.

[0038] 透明色彩膜层优选采用氧化硅和氧化钛真空镀膜形成,通过不同排列顺序、厚度氧化硅和氧化钛膜层的选择,配合黑色油墨可形成多种不同的视觉效果,下文提供三种优选的透明色彩膜层方案:[0039]方案 1: [0038] The Transparent Color film layer is preferably silicon oxide and titanium oxide vacuum film forming, the order by the different thickness of the silicon oxide and titanium oxide film of choice, with the black ink may be formed of a plurality of different visual effects, below provides three the preferred film layer transparent color scheme: [0039] scheme 1:

[0040] [0040]

Figure CN103317950AD00061

[0041] 上述方案能够形成高亮、鲜艳的金色立体纹视觉效果。 [0041] The above-described embodiment can be formed bright, bright golden pattern stereoscopic visual effect. 优选的膜层方案是:Si02:Ti305: Si02=160nm: 60nm: 40nmo Preferred embodiment the film is: Si02: Ti305: Si02 = 160nm: 60nm: 40nmo

[0042]方案 2: [0042] Scheme 2:

[0043] [0043]

Figure CN103317950AD00062

[0044] 上述方案能够获得炫丽的宝蓝色立体纹效果。 [0044] The above-described embodiment can be obtained navy blue dimensional pattern dazzling effect. 较优选的膜层方案是:SiO2: Ti3O5: Si02=80nm: 30nm: 20nm More preferred embodiment the film is: SiO2: Ti3O5: Si02 = 80nm: 30nm: 20nm

[0045]方案 3: [0045] Scheme 3:

[0046] [0046]

Figure CN103317950AD00063

[0047] 上述方案能够获得紫色的立体纹效果。 [0047] The above-described embodiment can be obtained three-dimensional pattern purple effect. 较优选的方案:Ti305:SiO2:Ti305=15nm: 17nm:16nm。 More preferred embodiment: Ti305: SiO2: Ti305 = 15nm: 17nm: 16nm.

[0048] 以上内容是结合具体的优选实施方式对本发明所作的进一步详细说明,不能认定本发明的具体实施只局限于这些说明。 [0048] The above contents with the specific preferred embodiments of the present invention is further made to the detailed description, specific embodiments of the present invention should not be considered limited to these descriptions. 对于本发明所属技术领域的技术人员来说,在不脱离本发明构思的前提下,还可以做出若干等同替代或明显变型,而且性能或用途相同,都应当视为属于本发明的保护范围。 To those skilled in the art for the present invention, without departing from the spirit of the present invention, it can make various obvious modifications or equivalents, and the same performance or use, should be deemed to belong to the scope of the present invention.

Claims (10)

1.一种立体纹视窗玻璃的制造方法,其特征在于包括以下步骤: UV转印:在透明片材表面进行UV转印以在片材表面形成立体纹; 真空镀膜:在所述透明片材形成有立体纹的面进行真空镀膜以形成一层、两层或多层透明色彩膜层; 第一丝印步骤:在所述透明色彩膜层表面丝印预定图案的第一油墨层; 退镀:将经所述第一丝印步骤后的透明片材置于退镀液中进行退镀; 冲切:将退镀后的透明片材根据预定的外形进行冲切; 贴合:将冲切好的透明片材不具有立体纹的面与视窗玻璃进行贴合从而获得具有立体纹视觉效果的视窗玻璃。 A method for producing a three-dimensional pattern of the window glass, comprising the steps of: transferring UV: a UV transfer surface of the transparent sheet to form a three-dimensional pattern in the surface of the sheet; vacuum coating: the transparent sheet a three-dimensional surface pattern is formed by vacuum film to form one, two or more layers of a transparent color film; a first step of screen printing: a first ink layer of the transparent color screen printing surface of the film of a predetermined pattern; stripping of: through the transparent sheet placed on the first screen printing step for stripping the electrolyte solution; punching: the transparent sheet stripping after the punching according to a predetermined shape; bonding: the die-cut transparent a sheet having no three-dimensional pattern of the surface of the window glass are bonded together to obtain a glass window having a stereoscopic pattern visual effect.
2.根据权利要求1所述的制造方法,其特征在于:所述退镀与冲切之间还包括第二丝印步骤:在透明片材形成有立体纹的面丝印图案和/或第二油墨层。 2. The method according to claim 1, wherein: said back screen comprises a second further step of between the plating and the punching of: forming a three-dimensional surface profile screen patterns and / or transparent second ink sheet Floor.
3.根据权利要求1所述的制造方法,其特征在于:所述透明片材为PET片材。 3. The method according to claim 1, wherein: said transparent sheet is a PET sheet.
4.根据权利要求1所述的制造方法,其特征在于:所述第一油墨层和第二油墨层的油墨均为黑色油墨。 4. The method according to claim 1, wherein: the first ink layer and a second ink layer of the ink are black inks.
5.根据权利要求1、2、3或4所述的制造方法,其特征在于:所述透明色彩膜层自内向外依次包括:100〜160nm厚的SiO2膜层、40〜60nm厚的Ti3O5膜层和30〜40nm厚的SiO2膜层。 The production method of claim 3 or claim 4, wherein: the transparent color film layer comprises the inside out sequentially: 100~160nm thick SiO2 film, 40~60nm thick film Ti3O5 30~40nm layer thick SiO2 film.
6.根据权利要求1、2、3或4所述的制造方法,其特征在于:所述透明色彩膜层自内向外依次包括:60〜80nm厚的SiO2膜层、25〜35nm厚的Ti3O5膜层和15〜25nm厚的SiO2膜层。 The manufacturing method of claim 3 or claim 4, wherein: the transparent color film layer comprises the inside out sequentially: 60~80nm thick SiO2 film, 25~35nm thick film Ti3O5 15~25nm layer thick SiO2 film.
7.根据权利要求1、2、3或4所述的制造方法,其特征在于:所述透明色彩膜层自内向外依次包括:15〜20nm厚的Ti3O5膜层、13〜20nm厚的SiO2膜层和15〜20nm厚的Ti3O5膜层。 The production method of claim 3 or claim 4, wherein: the transparent color film layer comprises the inside out sequentially: 15~20nm Ti3O5 thick film layer, 13~20nm thick SiO2 film Ti3O5 and 15~20nm thick layer film.
8.根据权利要求1、2、3或4所述的制造方法,其特征在于:所述UV转印包括以下步骤: 1)将UV胶水通过丝印的方式印到具有立体纹路的转印模具上; 2)将透明片材放置在转印模具上进行压合,然后在20〜25°C下放置3〜5分钟; 3)将透明片材和转印模具置于光固机中进行光固,光固温度不超过50°C,UV灯能量密度为300 〜500mj/cm2 ; 4)脱模得到转印有立体纹的透明片材。 The manufacturing method of claim 3 or claim 4, wherein: said UV transfer comprising the steps of: 1) a UV glue printing onto a transfer mold having a three-dimensional lines by way of screen printing ; 2) the transparent sheet is placed on the transfer nip mold, and then allowed to stand at 20~25 ° C 3~5 min; 3) the transparent sheet and the transfer mold was placed in a curing machine for curing , curing temperature does not exceed 50 ° C, UV lamp energy density of 300 ~500mj / cm2; 4) a transparent release sheet to give a three-dimensional pattern is transferred.
9.根据权利要求2所述的制造方法,其特征在于:所述第一丝印步骤和第二丝印步骤的印刷厚度为5〜10 μ m,烘烤温度为50〜80°C,烘烤时间为10〜20分钟。 9. The method according to claim 2, wherein: said step of silk screen printing thickness of the first and second screen printing step is 5~10 μ m, the baking temperature is 50~80 ° C, baking time of 10-20 minutes.
10.一种立体纹手机视窗玻璃,其特征在于:其制造方法为权利要求1-9的任意一项。 10. A stereoscopic land phone window glass, comprising: a manufacturing method as claimed in any one of claims 1-9.
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104626780A (en) * 2015-01-22 2015-05-20 浙江星星瑞金科技股份有限公司 Method for machining sapphire panel with CD patterns
CN104720203A (en) * 2015-04-01 2015-06-24 东莞市昊诺五金有限公司 Belt fastener crystal arc-shaped face manufacturing technology
CN105750155A (en) * 2016-03-17 2016-07-13 深圳市尊宝精密光学有限公司 UV transfer printing technology
CN106218196A (en) * 2016-07-26 2016-12-14 Tcl移动通信科技(宁波)有限公司 3D vision texture and processing method thereof on glass surface
CN104708872B (en) * 2013-12-11 2017-03-15 中山市云创知识产权服务有限公司 And a method for manufacturing a glass sheet
CN106564313A (en) * 2016-10-27 2017-04-19 广东星弛光电科技有限公司 UV texture transfer print preparing technology for 3D glass window protection screen
WO2017124324A1 (en) * 2016-01-20 2017-07-27 华为技术有限公司 Coated glass with window area and preparation method therefor
CN107097504A (en) * 2016-02-23 2017-08-29 蓝思科技(长沙)有限公司 Apparatus for performing texture transfer printing on camera protection glass, and texture transfer printing method
CN107225880A (en) * 2017-02-24 2017-10-03 袁锦富 Manufacturing method of acrylic double-sided mirror pattern for lamp
CN107248369A (en) * 2017-07-26 2017-10-13 深圳市中联讯科技有限公司 Label manufacturing method
WO2018099057A1 (en) * 2016-11-30 2018-06-07 深圳市好年璟科技有限公司 A composite logo structure and manufacturing method thereof

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102416688A (en) * 2011-10-21 2012-04-18 东莞劲胜精密组件股份有限公司 Treatment process of injecting product in mold
CN102615875A (en) * 2012-03-22 2012-08-01 东莞劲胜精密组件股份有限公司 Discontinuous metallic silver membrane and membrane coating method for same
CN102744898A (en) * 2012-07-26 2012-10-24 东莞钜升塑胶电子制品有限公司 UV (Ultraviolet) transfer printing process
CN102880348A (en) * 2012-09-29 2013-01-16 东莞万德电子制品有限公司 Color touch screen panel and method for manufacturing same
CN202857189U (en) * 2012-11-15 2013-04-03 东莞市汇诚塑胶金属制品有限公司 Fitting structure of electronic product screen

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102416688A (en) * 2011-10-21 2012-04-18 东莞劲胜精密组件股份有限公司 Treatment process of injecting product in mold
CN102615875A (en) * 2012-03-22 2012-08-01 东莞劲胜精密组件股份有限公司 Discontinuous metallic silver membrane and membrane coating method for same
CN102744898A (en) * 2012-07-26 2012-10-24 东莞钜升塑胶电子制品有限公司 UV (Ultraviolet) transfer printing process
CN102880348A (en) * 2012-09-29 2013-01-16 东莞万德电子制品有限公司 Color touch screen panel and method for manufacturing same
CN202857189U (en) * 2012-11-15 2013-04-03 东莞市汇诚塑胶金属制品有限公司 Fitting structure of electronic product screen

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104708872B (en) * 2013-12-11 2017-03-15 中山市云创知识产权服务有限公司 And a method for manufacturing a glass sheet
CN104626780A (en) * 2015-01-22 2015-05-20 浙江星星瑞金科技股份有限公司 Method for machining sapphire panel with CD patterns
CN104720203A (en) * 2015-04-01 2015-06-24 东莞市昊诺五金有限公司 Belt fastener crystal arc-shaped face manufacturing technology
WO2017124324A1 (en) * 2016-01-20 2017-07-27 华为技术有限公司 Coated glass with window area and preparation method therefor
CN107097504B (en) * 2016-02-23 2019-02-15 蓝思科技(东莞)有限公司 The device and texture transfer method of texture transfer are carried out for camera head protecting glass
CN107097504A (en) * 2016-02-23 2017-08-29 蓝思科技(长沙)有限公司 Apparatus for performing texture transfer printing on camera protection glass, and texture transfer printing method
CN105750155A (en) * 2016-03-17 2016-07-13 深圳市尊宝精密光学有限公司 UV transfer printing technology
CN106218196A (en) * 2016-07-26 2016-12-14 Tcl移动通信科技(宁波)有限公司 3D vision texture and processing method thereof on glass surface
CN106218196B (en) * 2016-07-26 2019-03-26 Tcl移动通信科技(宁波)有限公司 A kind of 3D visual texture and its processing method in glass surface
CN106564313A (en) * 2016-10-27 2017-04-19 广东星弛光电科技有限公司 UV texture transfer print preparing technology for 3D glass window protection screen
WO2018099057A1 (en) * 2016-11-30 2018-06-07 深圳市好年璟科技有限公司 A composite logo structure and manufacturing method thereof
CN107225880A (en) * 2017-02-24 2017-10-03 袁锦富 Manufacturing method of acrylic double-sided mirror pattern for lamp
CN107248369A (en) * 2017-07-26 2017-10-13 深圳市中联讯科技有限公司 Label manufacturing method

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