CN107488030A - 一种具有空气净化功能的仿石材制品及其制备方法 - Google Patents
一种具有空气净化功能的仿石材制品及其制备方法 Download PDFInfo
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Abstract
本发明公开了具有空气净化功能的仿石材制品及其制备方法,它是在现有的仿石材制品及制备方法的基础上,在坯体的上表面与面釉下方采用喷能量离子水制备工序添加进入能量离子粉,所述能量离子粉主要矿物为电气石及含硼为特征的钠、铁、锂环状结构的硅酸盐物质,其化学成份组成:B2O3:8‑11%、SiO2:30‑72%、Fe2O3:3‑5%、AL2O3:28‑35%CaO:0.5‑1.5%、MgO:7‑10%、K2O:0.3‑0.5%、Na2O:1‑2.2%、TiO2:0.5‑0.8%、LiO2:0.05‑0.09%。本发明具有有效消除甲醛等有毒气体释放负氧离子效果好且持久的优点。
Description
技术领域
本发明涉及仿石材制品技术领域,尤其是涉及释放负氧离子的仿石材制品及其制备方法技术领域。
背景技术
出于健康的需要,人们对于空气重量有了更高的追求,而目前陶瓷砖等制品广泛应用于家居装饰等,如何在居室中增加负离子消除有害气体如甲醛等成为人们思考的问题,于是有人想到在陶瓷砖中增加可释放负离子的材料,如专利名称为一种可释放负离子的健康陶瓷砖生产方法(CN200410079022.8)发明专利、其公开(公告)号为CN100351202C、申请日为2004.09.03,它涉及一种可释放负离子的健康陶瓷砖生产方法,在陶瓷砖中引入纳米复合负离子粉体,配方组成是锂电气石占20~40%、镁电气石占10~20%,纳米TiO2占20~40%,其他稀土复合盐类占5~12%,将纳米复合负离子粉同陶瓷基体良好的结合起来,经陶瓷辊道窑在温度1080℃~1200℃下烧成,从而获得具有稳定释放负离子且放射性能达标的陶瓷釉面砖,最终产品的负离子释放能力能达到健康要求。上述方法提供了一种产生负离子的一种方案。但其负离子释放效果及持久性尚有待提高。
发明内容
本发明的目的在于提供一种能有效消除甲醛等有毒气体释放负氧离子效果好且持久的具有空气净化功能的仿石材制品及其制备方法。
为了达到以上目的,本发明专利采用如下技术方案:
一种具有空气净化功能的仿石材制品,该仿石材制品包括表面釉层和坯体料层,所述坯体原料配比(按重量份比例):
化学成份组成:SIO2:60-75% AL2O3:18-25%
MgO:0.5-6.5% K2O:2-6%
NaO:1-5%
化学成份组成:SIO2:60-75% AL2O3:18-26%
MgO:0.5-1.5% K2O:2-6%
NaO:1-5%
上述配方中,坯体原料、釉料原料的配比及化学成份之和均为100%;
所述坯体料层的上表面喷淋有能量离子粉,主要矿物为电气石及含硼为特征的钠、铁、锂环状结构的硅酸盐物质,其化学成份组成(按重量比例)为B2O3:8-11% SiO2:30-72% Fe2O3:3-5% AL2O3:28-35%CaO:0.5-1.5% MgO:7-10% K2O:0.3-0.5% Na2O:1-2.2%TiO2:0.5-0.8% LiO2:0.05-0.09%:上述配方中,其配比之和为100%。
作为上述方案的进一步说明,所述能量离子粉最佳化学成份组成为B2O3:9.72%SiO2:37.72% Fe2O3:5.07% AL2O3:32.02% CaO:1.98%MgO:9.71% K2O:1.08% Na2O:1.90% TiO2:0.79% LiO2:0.01%。
一种具有空气净化功能的仿石材制品的制备方法,所述制备工艺包括素坯坯料原料制备、压机压制、生坯干燥、淋底釉、喷墨机打印图案文件、淋面釉、窑前干燥、窑炉烧成、抛光切边、包装产品,其特征在于,所述喷墨机打印图案文件与淋面釉工序之间还有喷能量离子水制备工序,在工序之前事先制备能量离子水,利用能量离子粉水溶性,添加比例:0.2%-0.4%,快速研磨机搅拌溶解均匀,制备完成能量离子水。
进一步地,所述喷能量离子水使用多组喷枪组成的喷釉设备,利用水刀把能量离子水均匀喷涂于已淋底釉未淋面釉的生坯表面,淋量要求:30g/m2。
与现有技术相比,本发明专利提供的一种具有空气净化功能的仿石材制品具有以下有益效果:
本发明采用在面釉与坯体料层之间,即坯体料层的上表面通过喷淋喷能量离子水的方式加入能量离子粉,使能量离子粉能均匀渗入到坯体料层的上层,在面釉的下方能够持久释放负离子,从而相对于现有的方法及配方将纳米复合负离子粉体加入面釉中效果更佳,空气净化效果更好。
具体实施方式
下面结合实施例对本发明专利作进一步描述:
本发明的一种具有空气净化功能的仿石材制品,该仿石材制品包括表面釉层和坯体料层,所述坯体料原料选取三组进行配比(按重量比例):
化学成份组成:SIO2:70% AL2O3:22%
MgO:1% K2O:3%
NaO:4%;
釉料原料配比可在钾长石粉40-55%、氧化锌3-8%、气刀土3-8%、石英粉20-30%、煅烧高岭土5-15%、铝粉2-6%、化学成份组成:SIO2:60-75%、AL2O3:18-26%、MgO:0.5-1.5%、K2O:2-6%、NaO:1-5%的范围内选取;
所述坯体料层的上表面喷淋有能量离子粉,主要矿物为电气石及含硼为特征的钠、铁、锂环状结构的硅酸盐物质,其最佳化学成份组成为B2O3:9.72% SiO2:37.72%Fe2O3:5.07% AL2O3:32.02% CaO:1.98%MgO:9.71% K2O:1.08% Na2O:1.90% TiO2:0.79% LiO2:0.01%。
上述组份中,通过在B2O3:8-11%、SiO2:30-72%、Fe2O3:3-5%、AL2O3:28-35%、CaO:0.5-1.5%、MgO:7-10%、K2O:0.3-0.5%、Na2O:1-2.2%、TiO2:0.5-0.8%、LiO2:0.05-0.09%配比范围内进行组份选择相应比例进行试验,可以得知,本发明的上述范围内的组份均能达到一定效果。
本发明制备方法为:素坯坯料原料制备-----压机压制----生坯干燥----淋底釉----喷墨机打印图案文件----喷能量离子水----淋面釉----窑前干燥----窑炉烧成----抛光切边----包装产品;
事先进行能量离子粉制备工艺:利用能量离子粉水溶性,添加比例:0.2%-0.4%,快速研磨机搅拌溶解均匀,制备完成能量离子水,待生产使用。
能量离子水使用工艺:使用工厂喷釉设备,此设备由多组喷枪组成,行业俗称:水刀。利用水刀把能量离子水均匀喷涂于已淋底釉未淋面釉的生坯表面,淋量要求:30g/m2。
本发明的具有空气净化功能的仿石材制品经广东省微生物要析检测中心检测,结果如下:
以上所述的仅是本发明的优选实施方式,应当指出,对于本领域的普通技术人员来说,在不脱离本发明创造构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。
Claims (4)
1.一种具有空气净化功能的仿石材制品,该仿石材制品包括表面釉层和坯体料层,其特征在于,所述坯体料层的上表面喷淋有能量离子粉,所述坯体料原料配比(按重量比例):
化学成份组成:SIO2:60-75% AL2O3:18-25%
MgO:0.5-6.5% K2O:2-6%
NaO:1-5%
化学成份组成:SIO2:60-75% AL2O3:18-26%
MgO:0.5-1.5% K2O:2-6%
NaO:1-5%
上述配方中,坯体原料、釉料原料的配比及化学成份之和均为100%;
所述坯体料层的上表面喷淋有能量离子粉,主要矿物为电气石及含硼为特征的钠、铁、锂环状结构的硅酸盐物质,其化学成份组成(按重量比例)为B2O3:8-11% SiO2:30-72%Fe2O3:3-5% AL2O3:28-35% CaO:0.5-1.5% MgO:7-10% K2O:0.3-0.5% Na2O:1-2.2%TiO2:0.5-0.8% LiO2:0.05-0.09%:上述配方中,其配比之和为100%。
2.根据权利要求1所述的具有空气净化功能的仿石材制品,其特征在于,能量离子粉其化学成份组成:B2O3:9.72% SiO2:37.72% Fe2O3:5.07% AL2O3:32.02% CaO:1.98%MgO:9.71% K2O:1.08% Na2O:1.90% TiO2:0.79% LiO2:0.01%。
3.一种采用上述权利要求1或2所述的具有空气净化功能的仿石材制品的制备方法,所述制备工艺包括素坯坯料原料制备、压机压制、生坯干燥、淋底釉、喷墨机打印图案文件、淋面釉、-窑前干燥、窑炉烧成、抛光切边、包装产品,其特征在于,所述喷墨机打印图案文件与淋面釉工序之间还有喷能量离子水制备工序,在工序之前事先制备能量离子水,利用能量离子粉水溶性,添加比例:0.2%-0.4%,快速研磨机搅拌溶解均匀,制备完成能量离子水。
4.根据权利要求3所述的制备方法,其特征在于,所述喷能量离子水使用多组喷枪组成的喷釉设备,利用水刀把能量离子水均匀喷涂于已淋底釉未淋面釉的生坯表面,淋量要求:30g/m2。
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CN110255904B (zh) * | 2019-07-02 | 2022-02-18 | 浙江开尔新材料股份有限公司 | 可除甲醛釉浆、制备方法和可除甲醛珐琅板的制备方法 |
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