CN107417252A - 一种能磁化水的陶壶 - Google Patents
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Abstract
本发明提供一种能磁化水的陶壶,属于特殊陶器领域,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石30‑40份、水白云母40‑50份、石英30‑40份、环石4‑12份、海泡石4‑12份、纳米硒粉1‑5份、氧化铝3‑5份、辛基酚聚氧乙烯醚2‑8份、铷铁硼4‑10份,组成成分中带有铷铁硼粉末,铷铁硼粉末使陶壶带有微量的磁性,微量的磁性能在一定程度上改善水质,并且通过壶壁上的磁性吸附水中部分杂质,净化壶中的水。
Description
技术领域
本发明属于特殊陶器领域,尤其涉及一种能磁化水的陶壶。
背景技术
随着经济的发展,人们的生活水平不断提高,对生活质量的要求也不断提高,对健康的生活也日益注重,但是在经济发展的同时,大量排放的工业污水、农业污水、生活污水等污染物会造成水资源污染,形成饮用水资源严重紧张的局面,同时也造成饮用水的质量下降,对人类的健康造成不利影响。对水质的改善有利于提升生活质量,通过对盛水的容器进行改进,让其持续改善水质成为目前的一个研究重点。
陶器,是用黏土或陶土经捏制成形后烧制而成的器具。陶器历史悠久,在新石器时代就已初见简单粗糙的陶器。陶器在古代作为一种生活用品,在现在一般作为工艺品收藏,由于成分多样,制作工艺简单成熟,非常适合作为改善水质的容器。
发明内容
基于现有技术存在上述情况,本发明提供一种能磁化水的陶壶,其组成成分中带有铷铁硼粉末,铷铁硼粉末使陶壶带有微量的磁性,微量的磁性能在一定程度上改善水质,并且通过壶壁上的磁性吸附水中部分杂质,净化壶中的水。
本发明通过以下技术方案达到目的:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石30-40份、水白云母40-50份、石英30-40份、环石4-12份、海泡石4-12份、纳米硒粉1-5份、氧化铝3-5份、辛基酚聚氧乙烯醚2-8份、铷铁硼4-10份。
优选地,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石34-36份、水白云母42-48份、石英34-38份、环石6-8份、海泡石6-8份、纳米硒粉2-4份、氧化铝3.5-4.5份、辛基酚聚氧乙烯醚4-6份、铷铁硼6-8份。
优选地,其所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石35份、水白云母46份、石英36份、环石7份、海泡石7份、纳米硒粉3份、氧化铝4份、辛基酚聚氧乙烯醚5份、铷铁硼7份。
其中,其烧窑的温度是800-1000℃,时间是36小时。
本发明具有的有益效果:在传统陶器使用的陶土中添加了铷铁硼粉末,铷铁硼是一种永磁材料,在陶土中添加了铷铁硼,使陶壶具有轻微的磁性,对壶中的水进行磁化。同时能在水中形成一个磁场,加快吸附和沉淀水中的杂质,净化壶中的水。
具体实施方式
下面结合具体实施例对本发明作进一步的描述。
实施例一:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石30份、水白云母40份、石英30份、环石4份、海泡石4份、纳米硒粉1份、氧化铝3份、辛基酚聚氧乙烯醚2份、铷铁硼4份。
将上述材料按比例粉碎混合,加入自来水进行混和,再经过常规陶器制作流程制成陶壶,其烧窑的温度是800℃,时间是36小时,即可制成能磁化水的陶壶。
实施例二:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石40份、水白云母50份、石英40份、环石12份、海泡石12份、纳米硒粉5份、氧化铝5份、辛基酚聚氧乙烯醚8份、铷铁硼10份。
将上述材料按比例粉碎混合,加入自来水进行混和,再经过常规陶器制作流程制成陶壶,其烧窑的温度是1000℃,时间是36小时,即可制成能磁化水的陶壶。
实施例三:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石36份、水白云母48份、石英38份、环石8份、海泡石8份、纳米硒粉4份、氧化铝4.5份、辛基酚聚氧乙烯醚6份、铷铁硼8份。
将上述材料按比例粉碎混合,加入自来水进行混和,再经过常规陶器制作流程制成陶壶,其烧窑的温度是1000℃,时间是36小时,即可制成能磁化水的陶壶。
实施例四:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石34份、水白云母42份、石英34份、环石6份、海泡石6份、纳米硒粉2份、氧化铝3.5份、辛基酚聚氧乙烯醚4份、铷铁硼6份。
将上述材料按比例粉碎混合,加入自来水进行混和,再经过常规陶器制作流程制成陶壶,其烧窑的温度是800℃,时间是36小时,即可制成能磁化水的陶壶。
实施例五:
一种能磁化水的陶壶,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石35份、水白云母46份、石英36份、环石7份、海泡石7份、纳米硒粉3份、氧化铝4份、辛基酚聚氧乙烯醚5份、铷铁硼7份。
将上述材料按比例粉碎混合,加入自来水进行混和,再经过常规陶器制作流程制成陶壶,其烧窑的温度是900℃,时间是36小时,即可制成能磁化水的陶壶。
以上所述实施例仅表达了本发明的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。因此,本发明专利的保护范围应以所附权利要求为准。
Claims (4)
1.一种能磁化水的陶壶,其特在在于,其由改良的陶土烧制而成,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石30-40份、水白云母40-50份、石英30-40份、环石4-12份、海泡石4-12份、纳米硒粉1-5份、氧化铝3-5份、辛基酚聚氧乙烯醚2-8份、铷铁硼4-10份。
2.根据权利要求1所述的一种能磁化水的陶壶,其特征在于,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石34-36份、水白云母42-48份、石英34-38份、环石6-8份、海泡石6-8份、纳米硒粉2-4份、氧化铝3.5-4.5份、辛基酚聚氧乙烯醚4-6份、铷铁硼6-8份。
3.根据权利要求2所述的一种能磁化水的陶壶,其特征在于,所述的改良陶土由以下组成成分按一定的质量分数组成:高岭石35份、水白云母46份、石英36份、环石7份、海泡石7份、纳米硒粉3份、氧化铝4份、辛基酚聚氧乙烯醚5份、铷铁硼7份。
4.根据权利要求1-3任一所述的一种能磁化水的陶壶,其特征在于,其烧窑的温度是800-1000℃,时间是36小时。
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| CN112209702A (zh) * | 2020-10-14 | 2021-01-12 | 武汉轻工大学 | 一种富硒陶瓷煲及其制备方法 |
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| CN105541286A (zh) * | 2015-12-17 | 2016-05-04 | 上海高诚创意科技集团有限公司 | 一种磁化陶瓷的生产方法 |
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