CN109020258A - 一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法 - Google Patents
一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法 Download PDFInfo
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- C03C17/36—Surface treatment of glass, not in the form of fibres or filaments, by coating with at least two coatings having different compositions at least one coating being a metal
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Abstract
本发明公开了一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法,属于玻璃镀膜的技术领域。该镀膜玻璃可用于航空、高铁、家用电器等触摸显示面板,应用广泛。通过在玻璃面板背面进行常规的显控镀膜,增强导电性能,在玻璃面板的正面还镀有抗菌抗指纹薄膜,纳米银具有广谱的抗菌效果,而抗指纹是通过在膜表面涂抹磨砂颗粒层来把手指的指纹的纹路尽量分散化,从而实现抗指纹。
Description
技术领域
本发明涉及一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法,属于玻璃镀膜的技术领域。该镀膜玻璃可用于航空、高铁、家用电器等触摸显示面板,应用广泛。
背景技术
玻璃镀膜技术发展很快,如蒸发式真空镀膜、磁控溅射真空镀膜、电浮法镀膜、热喷涂等都已投入市场,各种智能终端如可视电话、智能会议终端、智能手机、平板电脑等的外壳,往往要采用镀膜玻璃面板。
高铁和航空运输设备上常有供乘客娱乐或查询信息的智能终端设备,然而作为一种公共的交通工具,每天运载的乘客都十分繁杂,而其上的智能终端每天都要被不同乘客频繁触摸,不可避免会粘上病菌,使得面板表面也成为传染病的传播途径之一,同时面板表面上也会在频繁触摸中粘上各种指纹痕迹,影响美观。随着经济的不断发展,人们对生活要求的提高以及对自身身体健康意识的不断加强,如何让玻璃面板能够达到抗菌抗指纹的效果,变得很有现实意义。
银离子是一种无机抗菌物质,可以通过抑制细菌细胞中的酶及阻止DNA的复制,使细菌丧失分裂、繁殖能力而死亡。银离子的杀菌能力特别强,每升水中只要含亿万分之二毫克的银离子,即可杀死水中大部分细菌。
进一步的,随着纳米技术的出现,使银在纳米状态下的杀菌能力产生了质的飞跃,极少的纳米银可产生强大的杀菌作用。纳米银能够杀灭大肠杆菌、金黄色葡萄球菌、绿脓菌、枯草菌、白色念珠菌以及各种霉菌、病毒如肝炎病毒、禽流感病毒、艾滋病病毒等650多种细菌和病毒。纳米银能够促进伤口的愈合、细胞的生长以及受损细胞的修复,无任何毒性反应,对皮肤也未发现任何刺激反应。所以纳米银杀菌具有广谱抗菌、强效杀菌、渗透性强、抗菌持久、修复再生、安全无毒、无耐药性等特点。
然而同时能够实现导电传导、抗菌抗指纹的镀膜玻璃显控面板鲜有研究,如何使得玻璃显控面板同时具备显控和抗菌抗指纹的功能成为镀膜工艺需解决的一个问题。
发明内容
为解决上述技术问题,本发明提供了一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法。通过在玻璃面板背面进行常规的显控镀膜,增强导电性能,在玻璃面板的正面还镀有抗菌抗指纹薄膜。
为达到上述目的,本发明采用以下技术方案:
本发明实施例提供了一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法,玻璃面板依次采用溶剂超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,利用PVD技术在玻璃面板上生长氧化铝薄膜;在玻璃面板的正面镀上抗菌抗指纹薄膜。
上述方案中,所用溶剂为丙酮或异丙醇。
上述方案中,氧化铝薄膜的生长温度为450-550度。
上述方案中,薄膜厚度约为1微米。
上述方案中,抗菌抗指纹薄膜中的抗菌成分为纳米银。
上述方案中,抗菌抗指纹薄膜中的抗指纹成分为磨砂颗粒层。
本发明所达到的有益效果:通过在玻璃面板背面进行常规的显控镀膜,增强导电性能,在玻璃面板的正面还镀有抗菌抗指纹薄膜,纳米银具有广谱的抗菌效果,而抗指纹是通过在膜表面涂抹磨砂颗粒层来把手指的指纹的纹路尽量分散化,从而实现抗指纹。结构设计独特,集成了抗菌抗指纹显控三个功能于一体,节能减耗,安装方便,使用维护方便。
具体实施方式
下面结合具体实施例对本发明作进一步描述。以下实施例仅用于更加清楚地说明本发明的技术方案,而不能以此来限制本发明的保护范围。
实施例1
将玻璃面板依次采用丙酮超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在450度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例2
将玻璃面板依次采用异丙醇超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在450度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例3
将玻璃面板依次采用丙酮超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在500度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例4
将玻璃面板依次采用异丙醇超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在500度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例5
将玻璃面板依次采用异丙醇超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在550度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例6
将玻璃面板依次采用丙酮超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在550度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例7
将玻璃面板依次采用异丙醇超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在520度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例8
将玻璃面板依次采用丙酮超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在520度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例9
将玻璃面板依次采用异丙醇超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在480度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
实施例10
将玻璃面板依次采用丙酮超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,在480度的温度下,利用PVD技术在玻璃面板上生长氧化铝薄膜,薄膜厚度约为1微米;在玻璃面板的正面镀上纳米银磨砂颗粒层薄膜。
制作得到的玻璃显控面板具有良好的显控导电性能,经测试抗菌性能达到99%,12小时抗菌测试抗菌率达到70%,表面经1000次触摸测试仍可保持光洁外观,具有良好的应用价值。
以上所述仅是本发明的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明技术原理的前提下,还可以做出若干改进和变形,这些改进和变形也应视为本发明的保护范围。
Claims (6)
1.一种抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,玻璃面板依次采用溶剂超声清洗,去离子水冲洗,氮气吹干;在玻璃面板的背面以纯度为99.995%的三甲基铝为铝源,氧气为氧源,以氩气为载气,利用PVD技术在玻璃面板上生长氧化铝薄膜;在玻璃面板的正面镀上抗菌抗指纹薄膜。
2.根据权利要求1所述的抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,所用溶剂为丙酮或异丙醇。
3.根据权利要求1所述的抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,氧化铝薄膜的生长温度为450-550度。
4.根据权利要求1所述的抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,薄膜厚度为1微米。
5.根据权利要求1所述的抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,抗菌抗指纹薄膜中的抗菌成分为纳米银。
6.根据权利要求1所述的抗菌抗指纹触摸玻璃显控面板镀膜制备方法,其特征是,抗菌抗指纹薄膜中的抗指纹成分为磨砂颗粒层。
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