CN107344850A - 钛硒复合健康陶瓷奶瓶的配方及其制作工艺 - Google Patents
钛硒复合健康陶瓷奶瓶的配方及其制作工艺 Download PDFInfo
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Abstract
本发明涉及一种钛硒复合健康陶瓷奶瓶的配方及其制作工艺,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅35~45份、氮化硼5~8份、片状高岭石5~10份、锂辉石2~4份、纳米硒3~6份、纳米钛酸镁1~3份、麦饭石8~12份、水云母5~10份、二氧化钛1~3份、金精石2~4份、木鱼石1~3份、焦宝石6~8份。采用光触媒渗透共振技术,在常温下能够持续释放良好的波长为20~35μm的远红外线和负离子,增加水分子的溶氧量,是普通陶瓷的数十倍,保持奶水营养度和新鲜度,具有杀菌、去味、除余氯和活化水分子,能够破坏水分子之间的连接键,形成小分子团水,使得水分子的穿透力更强,促进新陈代谢,增强细胞活力。
Description
技术领域
本发明涉及一种陶瓷奶瓶及其制作工艺,特别是指一种钛硒复合健康陶瓷奶瓶的配方及其制作工艺。
背景技术
奶瓶是婴幼儿喂养奶粉时最常采用的工具,奶粉作为婴幼儿的主食或者营养补充品,其营养成分全面且充足,为此,泡制好的奶粉非常适合细菌生存、繁衍,为此,泡制好的奶粉短时间内就容易腐败,食用对婴幼儿的身体健康容易造成很大影响。
目前的奶瓶主要材质是塑料和玻璃,小部分奶瓶为陶瓷奶瓶,塑料奶瓶容易析出有害物质,且加热、消毒易老化,使用寿命短;而玻璃奶瓶在骤冷骤热条件则存在容易破裂的问题。陶瓷奶瓶则能够克服塑料奶瓶和玻璃奶瓶存在的析出有害物质、易老化和骤冷骤热易破裂的问题。
但是,目前市场上常见的奶瓶均不能克服或者改善奶粉易腐败的问题,致使未及时喝完的奶粉因可能腐败而被倒掉,造成资源的浪费,使得消费者的婴幼儿的抚养成本增加。
发明内容
本发明提供一种钛硒复合健康陶瓷奶瓶的配方及其制作工艺,以克服现有的奶瓶存在的容易析出有害物质、易老化、骤冷骤热易破裂和不能延缓奶粉腐败的问题。
本发明采用如下技术方案:
钛硒复合健康陶瓷奶瓶的配方,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅35~45份、氮化硼5~8份、片状高岭石5~10份、锂辉石2~4份、纳米硒3~6份、纳米钛酸镁1~3份、麦饭石8~12份、水云母5~10份、二氧化钛1~3份、金精石2~4份、木鱼石1~3份、焦宝石6~8份。
进一步地,本发明的钛硒复合健康陶瓷奶瓶优选由下述五个配方制备:
其一,二氧化硅42份、氮化硼7份、片状高岭石9份、锂辉石3份、纳米硒5份、纳米钛酸镁2份、麦饭石10份、水云母8份、二氧化钛2份、金精石3份、木鱼石2份、焦宝石7份。
其二,二氧化硅45份、氮化硼5份、片状高岭石9份、锂辉石4份、纳米硒5份、纳米钛酸镁1份、麦饭石12份、水云母5份、二氧化钛1份、金精石2份、木鱼石3份、焦宝石8份。
其三,二氧化硅35份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁3份、麦饭石12份、水云母8份、二氧化钛3份、金精石4份、木鱼石1份、焦宝石8份。
其四,二氧化硅45份、氮化硼5份、片状高岭石5份、锂辉石4份、纳米硒3份、纳米钛酸镁3份、麦饭石12份、水云母9份、二氧化钛3份、金精石2份、木鱼石1份、焦宝石8份。
其五,二氧化硅41份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁1份、麦饭石8份、水云母10份、二氧化钛1份、金精石4份、木鱼石3份、焦宝石6份。
更进一步地,钛硒复合健康陶瓷奶瓶的配方的制作工艺,该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,干燥、施釉、烧成得到产品。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
进一步改进地,上述奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭。
进一步改进地,上述奶瓶坯体由核磁工业窑炉烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。该工业窑炉包括窑炉主体及其配合使用的窑炉门,窑炉主体内设置有烧成室,窑炉门封盖该烧成室形成封闭烧成空间;烧成室内配置有核磁共振仪。通过核磁共振仪的配置,使得窑炉在烧成的过程中通过核磁共振仪产生的强大磁场能够对所烧制的产品产生极大影响,使得处于磁场中的产品中的分子结构的原子核自旋、翻转,进而使得陶瓷产品能够将磁场能量进行存储,而产品在使用中则能够持续释放能量。
由上述对本发明的描述可知,和现有技术相比,本发明具有如下优点:本发明奶瓶采用光触媒渗透共振技术制备,有效地改善了产品释放能量的持续性和稳定性,使得产品在常温下能够持续释放良好的波长为20~35μm的远红外线和负离子,增加水分子的溶氧量,是普通陶瓷的数十倍,具有杀菌、去味、除余氯和活化水分子等功效,且能够破坏水分子之间的连接键,使得水分子团的水分子数量减少,形成小分子团水,进而改善水质,使得水分子的穿透力更强,促进新陈代谢,增强细胞活力;另外,在大肠杆菌AS1.90和金黄色葡萄球菌AS1.89的抗菌效果检测项目中的抗菌率分别达到10.86%和81.02%,其铅溶出量<0.1mg/L,镉溶出量<0.01mg/L;此外,本发明的陶瓷奶瓶在使用中会析出人体所需的矿物质元素,如钙、镁、锌、硒、铁等,使用安全、且对人体健康具有良好的促进作用,对泡制的奶粉具有有效的抑菌、杀菌、抗菌作用,能够有效延长奶粉的保鲜时间,保持奶水营养度和新鲜度,使得婴幼儿饮用奶粉更为健康。
具体实施方式
实施方式一
本实施方式的陶瓷奶瓶由按重量份的下述原料制备:二氧化硅42份、氮化硼7份、片状高岭石9份、锂辉石3份、纳米硒5份、纳米钛酸镁2份、麦饭石10份、水云母8份、二氧化钛2份、金精石3份、木鱼石2份、焦宝石7份。该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭,并通过核磁工业窑炉进行烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
本实施方式的奶瓶采用光触媒渗透共振技术制备,有效地改善了产品释放能量的持续性和稳定性,使得产品在常温下能够持续释放良好的波长为20~35μm的远红外线和负离子,增加水分子的溶氧量,是普通陶瓷的数十倍,具有杀菌、去味、除余氯和活化水分子等功效,且能够破坏水分子之间的连接键,使得水分子团的水分子数量减少,形成小分子团水,进而改善水质,使得水分子的穿透力更强,促进新陈代谢,增强细胞活力;另外,在大肠杆菌AS1.90和金黄色葡萄球菌AS1.89的抗菌效果检测项目中的抗菌率分别达到10.86%和81.02%,其铅溶出量<0.1mg/L,镉溶出量<0.01mg/L;此外,本发明的陶瓷奶瓶在使用中会析出人体所需的矿物质元素,如钙、镁、锌、硒、铁等,使用安全、且对人体健康具有良好的促进作用,对泡制的奶粉具有有效的抑菌、杀菌、抗菌作用,能够有效延长奶粉的保鲜时间,保持奶水营养度和新鲜度,使得婴幼儿饮用奶粉更为健康。
实施方式二
本实施方式的陶瓷奶瓶由按重量份的下述原料制备:二氧化硅45份、氮化硼5份、片状高岭石9份、锂辉石4份、纳米硒5份、纳米钛酸镁1份、麦饭石12份、水云母5份、二氧化钛1份、金精石2份、木鱼石3份、焦宝石8份。该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭,并通过核磁工业窑炉进行烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
实施方式三
本实施方式的陶瓷奶瓶由按重量份的下述原料制备:二氧化硅35份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁3份、麦饭石12份、水云母8份、二氧化钛3份、金精石4份、木鱼石1份、焦宝石8份。该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭,并通过核磁工业窑炉进行烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
实施方式四
本实施方式的陶瓷奶瓶由按重量份的下述原料制备:二氧化硅45份、氮化硼5份、片状高岭石5份、锂辉石4份、纳米硒3份、纳米钛酸镁3份、麦饭石12份、水云母9份、二氧化钛3份、金精石2份、木鱼石1份、焦宝石8份。该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭,并通过核磁工业窑炉进行烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
实施方式五
本实施方式的陶瓷奶瓶由按重量份的下述原料制备:二氧化硅41份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁1份、麦饭石8份、水云母10份、二氧化钛1份、金精石4份、木鱼石3份、焦宝石6份。该陶瓷奶瓶的制备是先按上述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭,并通过核磁工业窑炉进行烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。本发明的配方通过常规陶瓷产品的生产工艺即可制作得到本发明的钛硒复合健康陶瓷奶瓶。
上述仅为本发明的具体实施方式,但本发明的设计构思并不局限于此,凡利用此构思对本发明进行非实质性的改动,均应属于侵犯本发明保护范围的行为。
Claims (10)
1.钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅35~45份、氮化硼5~8份、片状高岭石5~10份、锂辉石2~4份、纳米硒3~6份、纳米钛酸镁1~3份、麦饭石8~12份、水云母5~10份、二氧化钛1~3份、金精石2~4份、木鱼石1~3份、焦宝石6~8份。
2.如权利要求1所述的钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅42份、氮化硼7份、片状高岭石9份、锂辉石3份、纳米硒5份、纳米钛酸镁2份、麦饭石10份、水云母8份、二氧化钛2份、金精石3份、木鱼石2份、焦宝石7份。
3.如权利要求1所述的钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅45份、氮化硼5份、片状高岭石9份、锂辉石4份、纳米硒5份、纳米钛酸镁1份、麦饭石12份、水云母5份、二氧化钛1份、金精石2份、木鱼石3份、焦宝石8份。
4.如权利要求1所述的钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅35份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁3份、麦饭石12份、水云母8份、二氧化钛3份、金精石4份、木鱼石1份、焦宝石8份。
5.如权利要求1所述的钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅45份、氮化硼5份、片状高岭石5份、锂辉石4份、纳米硒3份、纳米钛酸镁3份、麦饭石12份、水云母9份、二氧化钛3份、金精石2份、木鱼石1份、焦宝石8份。
6.如权利要求1所述的钛硒复合健康陶瓷奶瓶的配方,其特征在于,该陶瓷奶瓶由按重量份的下述原料制备:二氧化硅41份、氮化硼8份、片状高岭石10份、锂辉石2份、纳米硒6份、纳米钛酸镁1份、麦饭石8份、水云母10份、二氧化钛1份、金精石4份、木鱼石3份、焦宝石6份。
7.钛硒复合健康陶瓷奶瓶的配方的制作工艺,其特征在于:该陶瓷奶瓶的制备是先按权利要求1至6任一所述的配方备料,并将二氧化硅、氮化硼、片状高岭石、锂辉石、纳米硒、纳米钛酸镁、麦饭石、水云母、二氧化钛、金精石、木鱼石、焦宝石分别经精洗、烘干、破碎、研磨处理后,获得细度为250~450目的原料,然后制成泥料,制作奶瓶坯体,干燥、施釉、烧成得到产品。
8.如权利要求7所述的钛硒复合健康陶瓷奶瓶的配方的制作工艺,其特征在于:所述奶瓶坯体的侧壁上设有沿其高度方向延伸的探视条形孔,探视条形孔由透明体填充封闭。
9.如权利要求7所述的钛硒复合健康陶瓷奶瓶的配方的制作工艺,其特征在于:所述奶瓶坯体由核磁工业窑炉烧成,烧成温度为1280~1400℃,烧成时间为10~15小时。
10.如权利要求9所述的钛硒复合健康陶瓷奶瓶的配方的制作工艺,其特征在于:所述工业窑炉包括窑炉主体及其配合使用的窑炉门,窑炉主体内设置有烧成室,窑炉门封盖该烧成室形成封闭烧成空间;烧成室内配置有核磁共振仪。
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