CN110330325A - 能持续释放负离子、能量素瓷器皿及其制备方法和应用 - Google Patents

能持续释放负离子、能量素瓷器皿及其制备方法和应用 Download PDF

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CN110330325A
CN110330325A CN201910614175.4A CN201910614175A CN110330325A CN 110330325 A CN110330325 A CN 110330325A CN 201910614175 A CN201910614175 A CN 201910614175A CN 110330325 A CN110330325 A CN 110330325A
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杨震源
钟国柱
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Abstract

本发明涉及一种能持续释放负离子、能量素瓷器皿及其制备方法和应用,所述瓷器皿包括:钾长石、方解石、萤石、碳酸钙、碳酸钡、石英、纳米级氧化锌、纳米级复合负离子材料和纳米级火山岩素。本发明的能持续释放负离子、能量素瓷器皿,其水釉中采用超细纳米复合负离子材料、能量素和纳米级氧化锌,经1300度左右高温进行烧结,得到能持续释放负离子、能量素瓷器皿;该瓷器皿具有很强的抗菌灭菌、保鲜等功能;由于物理的原理促进了人体细胞恢复活力,活化了细胞和血液;能量素有助于细胞新陈代谢。釉料配方中采用了纳米氧化锌,纳米氧化锌经1300度左右高温结晶后具有抗菌灭菌功能;与负离子、能量素的抗菌保鲜起到了“异曲同工”的效应。

Description

能持续释放负离子、能量素瓷器皿及其制备方法和应用
技术领域
本发明涉及一种能持续释放负离子、能量素瓷器皿及其制备方法和应用。
背景技术
餐具、茶具等自古以来“公用、共用”是一个举世难题!人类的很多疾病的传播都是由于“公用、共用”餐具、茶具引起的根源。因此餐具、茶具的消毒一直困扰着人们的生活。
发明内容
本发明的一个目的在于提出一种能持续释放负离子、能量素瓷器皿。
本发明的一种能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石28份~32份、方解石12份~16份、萤石12份~16份、碳酸钙10份~14份、碳酸钡12份~14份、石英6份~11份、纳米级氧化锌1份~3份、纳米级复合负离子材料3份~5份和纳米级火山岩素2份~4份。
本发明的能持续释放负离子、能量素瓷器皿,其采用超细纳米复合负离子材料、能量素和纳米氧化锌;该瓷器皿具有很强的抗菌灭菌、保鲜等功能;由于物理的原理促进了细胞恢复活力,活化了细胞和血液;深入人体肌肤内层打通血液、经络及微循环系统;负离子、能量素加速了“营养”的吸收,排出了体内的“毒素”并具有辅助治愈各类慢性疾病功能;能量素具有强化血液循环、促进体内血液氧分供应量,增强细胞再生、有助于细胞新陈代谢,同时能量素还具有较强的食物保鲜功能;延长了食物存放时间缓解了人们日常生活节奏。
另外,本发明上述的能持续释放负离子、能量素瓷器皿,还可以具有如下附加的技术特征:
作为本发明优选的实施方式,所述的能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石28份、方解石16份、萤石12份、碳酸钙14份、碳酸钡12份、石英11份、纳米级氧化锌1份、纳米级复合负离子材料5份和纳米级火山岩素2份。
作为本发明优选的实施方式,所述的能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石32份、方解石12份、萤石16份、碳酸钙10份、碳酸钡14份、石英6份、纳米级氧化锌3份、纳米级复合负离子材料3份和纳米级火山岩素4份。
作为本发明优选的实施方式,所述的能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石30份、方解石14份、萤石14份、碳酸钙12份、碳酸钡13份、石英8份、纳米级氧化锌2份、纳米级复合负离子材料4份和纳米级火山岩素3份。
作为本发明优选的实施方式,所述纳米级复合负离子材料为经放射性筛选、研磨和工业高频电激化过能持久释放天然负离子的纳米级电气石混合得到的。负离子释放量可达5000-8000个/秒/立方厘米。本发明的复合负离子材料的放射性辐射指标均在安全范围内。
作为本发明优选的实施方式,所述纳米级火山岩素为玄武岩。加热后的火山岩会释放出大量的雾状能量离子,同时产生磁效应、温热效应、冷热效应(可吸附人体内的负面能量)等,具有补充能量、强化血液循环、促进体内血液氧分供应量,增强细胞再生、有助于细胞新陈代谢,同时能量素还具有较强的食物保鲜功能。
作为本发明优选的实施方式,所述氧化锌为纳米级氧化锌。
本发明的另一个目的在于提出所述的能持续释放负离子、能量素瓷器皿的制备方法。
所述的能持续释放负离子、能量素瓷器皿的制备方法,包括如下步骤:将所述原料依次进行筛选、研磨并加水调制,然后加入重量份数为1份~3份的悬浮剂并进行搅拌,再过滤,然后制备成预设形状的釉胚并加热至1200℃~1400℃进行烧结,得到能持续释放负离子、能量素瓷器皿。
进一步地,过滤时采用450目~550目筛网。
进一步地,在烧结前加入重量份数1份~3份的纳米氧化锌并搅拌。釉料配方中采用了纳米氧化锌,纳米氧化锌经1300度左右高温结晶后具有抗菌灭菌功能;与负离子、能量素的抗菌保鲜起到了“异曲同工”的效应。
本发明的再一个目的在于提出所述的能持续释放负离子、能量素瓷器皿在促进新陈代谢、抗菌抗病毒、消除正电子污染、防交叉感染和食物保鲜方面的应用。
本发明的附加方面和优点将在下面的描述中部分给出,部分将从下面的描述中变得明显,或通过本发明的实践了解到。
具体实施方式
下面详细描述本发明的实施例,所述实施例是示例性的,旨在用于解释本发明,而不能理解为对本发明的限制。
实施例1-3,水釉原料组成重量百分比见下表
备注:1.经实际使用实施例2效果最佳;
2.实施例2负离子释放量达到5000-8000个/秒/立方厘米。
实施例1
实施例1提出了一种能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石28份、方解石16份、萤石16份、碳酸钙10份、碳酸钡14份、石英6份、纳米级氧化锌3份、纳米级复合负离子材料3份和纳米级火山岩素4份。所述纳米级复合负离子材料为经放射性筛选、研磨和工业高频电激化过能持久释放天然负离子的纳米级电气石混合得到的。所述纳米级火山岩素为玄武岩。
实施例1的能持续释放负离子、能量素瓷器皿的制备方法,包括如下步骤:将所述原料依次进行筛选、研磨并加水调制,然后加入重量份数为1份的悬浮剂并进行搅拌,再采用550目筛网过滤,然后制备成预设形状的釉胚并加热至1200℃进行烧结,得到能持续释放负离子、能量素瓷器皿。
实施例2
实施例2提出了一种能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石30份、方解石14份、萤石12份、碳酸钙12份、碳酸钡12份、石英11份、纳米级氧化锌2份、纳米级复合负离子材料4份和纳米级火山岩素3份。所述纳米级复合负离子材料为经放射性筛选、研磨和工业高频电激化过能持久释放天然负离子的纳米级电气石混合得到的。所述纳米级火山岩素为玄武岩。
实施例2的能持续释放负离子、能量素瓷器皿的制备方法,包括如下步骤:将所述原料依次进行筛选、研磨并加水调制,然后加入重量份数为3份的悬浮剂并进行搅拌,再采用450目筛网过滤,然后制备成预设形状的釉胚并加热至1400℃进行烧结,得到能持续释放负离子、能量素瓷器皿。经实际使用实施例2效果最佳;实施例2负离子释放量达到5000-8000个/秒/立方厘米。
实施例3
实施例3提出了一种能持续释放负离子、能量素瓷器皿,包括如下重量份数的原料:钾长石32份、方解石12份、萤石14份、碳酸钙14份、碳酸钡10份、石英10份、纳米级氧化锌1份、纳米级复合负离子材料5份和纳米级火山岩素2份。所述纳米级复合负离子材料为经放射性筛选、研磨和工业高频电激化过能持久释放天然负离子的纳米级电气石混合得到的。所述纳米级火山岩素为玄武岩。
实施例3的能持续释放负离子、能量素瓷器皿的制备方法,包括如下步骤:将所述原料依次进行筛选、研磨并加水调制,然后加入重量份数为2份的悬浮剂并进行搅拌,再采用500目筛网过滤,然后制备成预设形状的釉胚并加热至1300℃进行烧结,得到能持续释放负离子、能量素瓷器皿。
本发明的复合负离子材料通过下述步骤获得:①负离子添加材料的筛选:采用放射性探测仪线型筛选纳米级电气石,祛除放射性含量的材料;②将经筛选的纳米级电气石通过逐级研磨震动筛选、高速气流分散使其颗粒度达到50nm-80nm③然后将50nm-80nm的纳米级电气石按重量比1﹕(0.3-0.7)与经放射性筛选和能持久释放天然负离子的纳米级六环石混合得到复合负离子材料;以达到调节“安全指标”的功能。
经检测,本发明的复合负离子材料产生负离子的量为5000-8000个/cm3*s。进行抗菌检测,其对大肠杆菌、金黄色葡萄球菌、巨大芽孢杆菌、荧光假单胞杆菌和枯草杆菌的抗菌率在90%以上。
负离子功能具有:
1.负离子有很强的抗菌功能;(对各类细菌、霉菌、杆菌苞菌、病毒的抗菌率达90%以上;附有检测报告);
2.负离子能有效降解水中甲醛、甲苯、氨等有害化学成分功能;
3.负离子有祛除各类异味、臭味达到改善空气、水质的功能;
4.负离子可降解电子污染功能(是能消除正电子污染的武器)
5.负离子能有效活化细胞、血液;深入人体肌肤、血液打通经络及微循环系统并具有辅助治愈各类慢性疾病功能;
6.负离子有很强的抗氧化及保鲜功能。
综上,本发明的能持续释放负离子、能量素瓷器皿,其采用超细纳米复合负离子材料和能量素,该瓷器皿具有很强的抗菌灭菌、保鲜、消除正电子污染、防交叉感染等功能;同时能量素还具有较强的食物保鲜功能;延长了食物存放时间缓解了人们日常生活节奏。由于釉料配方中还采用了纳米氧化锌,纳米氧化锌经1300度左右高温结晶后具有抗菌灭菌功能;与负离子、能量素的抗菌保鲜起到了“异曲同工”的效应。
在本说明书的描述中,参考术语“一个实施例”、“一些实施例”、“示例”、“具体示例”、或“一些示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本发明的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不必须针对的是相同的实施例或示例。而且,描述的具体特征、结构、材料或者特点可以在任一个或多个实施例或示例中以合适的方式结合。此外,在不相互矛盾的情况下,本领域的技术人员可以将本说明书中描述的不同实施例或示例以及不同实施例或示例的特征进行结合和组合。
尽管上面已经示出和描述了本发明的实施例,可以理解的是,上述实施例是示例性的,不能理解为对本发明的限制,本领域的普通技术人员在本发明的范围内可以对上述实施例进行变化、修改、替换和变型。

Claims (10)

1.一种能持续释放负离子、能量素瓷器皿,其特征在于,包括如下重量份数的原料:钾长石28份~32份、方解石12份~16份、萤石12份~16份、碳酸钙10份~14份、碳酸钡12份~14份、石英6份~11份、纳米级氧化锌1份~3份、纳米级复合负离子材料3份~5份和纳米级火山岩素2份~4份。
2.根据权利要求1所述的能持续释放负离子、能量素瓷器皿,其特征在于,包括如下重量份数的原料:钾长石28份、方解石16份、萤石12份、碳酸钙14份、碳酸钡12份、石英11份、纳米级氧化锌1份、纳米级复合负离子材料5份和纳米级火山岩素2份。
3.根据权利要求1所述的能持续释放负离子、能量素瓷器皿,其特征在于,包括如下重量份数的原料:钾长石32份、方解石12份、萤石16份、碳酸钙10份、碳酸钡14份、石英6份、纳米级氧化锌3份、纳米级复合负离子材料3份和纳米级火山岩素4份。
4.根据权利要求1所述的能持续释放负离子、能量素瓷器皿,其特征在于,包括如下重量份数的原料:钾长石30份、方解石14份、萤石14份、碳酸钙12份、碳酸钡13份、石英8份、纳米级氧化锌2份、纳米级复合负离子材料4份和纳米级火山岩素3份。
5.根据权利要求1-4任一项所述的能持续释放负离子、能量素瓷器皿,其特征在于,所述纳米级复合负离子材料为经放射性筛选、研磨和工业高频电激化过能持久释放天然负离子的纳米级电气石混合得到的。
6.根据权利要求1-4任一项所述的能持续释放负离子、能量素瓷器皿,其特征在于,所述纳米级火山岩素为玄武岩。
7.根据权利要求1-4任一项所述的能持续释放负离子、能量素瓷器皿,其特征在于,所述氧化锌为纳米级氧化锌。
8.权利要求1-7任一项所述的能持续释放负离子、能量素瓷器皿的制备方法,其特征在于,包括如下步骤:
将所述原料依次进行筛选、研磨并加水调制,然后加入重量份数为1份~3份的悬浮剂并进行搅拌,再过滤,然后制备成预设形状的釉胚并加热至1200℃~1400℃进行烧结,得到能持续释放负离子、能量素瓷器皿。
9.根据权利要求1-7任一项所述的能持续释放负离子、能量素瓷器皿的制备方法,其特征在于,过滤时采用450目~550目筛网。
10.权利要求1-7任一项所述的能持续释放负离子、能量素瓷器皿在促进新陈代谢、抗菌抗病毒、消除正电子污染、防交叉感染和食物保鲜方面的应用。
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