CN1077090C - 放出远红外线及阴离子的多用途石粉及其制造方法 - Google Patents
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Abstract
本发明提出了放出远红外线及阴离子的多用途石粉及其制造方法,其特征是在由长石构成内部炉(4)的内面附着薄银纸,向其中加入分别粉碎成约325目的锗石60%重量、沸石10%重量、玉石10%重量、含氟石10%重量及矿石10%重量,在传热板(2)的内面和内部炉(4)的外面之间加入粉碎成约325目的麦饭石(3),通过传热板(2)在约1000℃下加热9天,将在内部炉(4)中进行热变化的上述5种石粉(6)再次粉碎成约500目以上。
Description
本发明涉及大量放出远红外线及阴离子的多用途石粉及其制造方法。
一般,红外线是电磁波的一种,是波长在0.76-1000μ范围的红外线,将波长为0.76-1.5μ的称近红外线、1.5-5.6μ的称中红外线,而5.6-1000μ的称远红外线(Far Infrared Business,Sunmark出版、1988.12.25)。
远红外线的用途非常广泛,已知例如有加热·干燥作用、熟化作用、培育作用、镇痛作用等,而且若用于人体,则有大量分泌汗的发汗作用或镇痛作用等。此外,自从发表了对于人体的生物节律有良好效果的临床实验报告后,又进行了多次的试验,力图将远红外线应用在健康产业或食品产业上(日本全热协会、远红外线委员会著、“远红外线加热的理论和实际”pp226-239)。
因此,此时远红外桑拿浴,在比水蒸汽浴低的温度下,可增进人体的发汗作用。换言之,水蒸汽浴,由于将高温水蒸汽(约70-80℃)供给桑拿浴室,人在浴中不能长时间忍受。相反地,远红外线桑拿室的内部温度即使维持在约40℃左右,也比水蒸汽浴的发汗作用高得多。这是应用了远红外线被吸收于人体内,并与人体内的水分子的共鸣作用,引起本身发热的现象。
阴离子和阳离子,众所周知,性质是相反的,在与人体相关方面,根据Bert Sakmann和E.Necher共同研究发表的,并于1991年得到诺贝尔生理医学奖的理论,可以通过细胞内阴离子的移动,掌握疾病结构。即,全部呈中性的人体受到外部或内部的影响,阳离子变多时,为了进行补偿,设想使用食品或周围的生活设备等来补充阴离子,所以对于阴离子的关注日益高涨。
若在阳离子变多的人体中,适当地加入阴离子,已知有植物神经调节作用、血液净化作用、细胞复活作用及细胞抵抗增进作用等。
空气中的各种离子,由于气象条件而显示变化,在不连续线、寒冷前线等的低气压通过时,阳离子增加,受到这些影响,在人体内的阴离子减少,阳离子增加,所以神经痛、哮喘、脑中风等的疾病发生率增加。
以往,市售过使用商品名“生物陶瓷”的材料的放射远红外线的原材料。它是在陶瓷材料中,混入具有特定功能的矿物质或加入化学物质,加大特定功能,例如抗菌、防止脱色、防臭等效果,可以粉末或粒子形态、液相形态供给。
可是,以往的远红外线放出材料存在着只放出远红外线或远红外线放出量少的缺点。另外,由于混合有各种化学物质,有难以用于为避免化学物质的健康食品的问题。
因此,本发明的目的,在于提供完全由非化学物质的天然矿石构成的,能大量放出远红外线、阴离子的多用途石粉及其制造方法。
为了达到上述目的,本发明提供了放出远红外线及阴离子的多用途石粉和其制造方法,其特征是在由长石构成内部炉4的内面附着薄银纸,向其中加入分别粉碎成约325目的锗石60%重量,沸石10%重量、玉石10%重量、含氟石10%重量及矿石10%重量,在传热板2的内面和内部炉4的外面之间加入粉碎成约325目的麦饭石3,通过传热板2在约1000℃下加热9天,将在内部炉4中进行热变化的上述5种石粉6再次粉碎成约500目以上,而构成的。
这里所说的玉石,是指硬玉(jadeite)或软玉(nephrite)。
附图简要说明如下:
图1是表示制造本发明的多用途石粉的炉的概略图。
图2是表示本发明的多用途石粉的制造工序的方框图。
以下,参照附图,详细地说明本发明。
如图1所示,为制造本发明多用途石粉的炉1具有传热板2和内部炉4和内部用银(Ag)涂敷了的内壁5。
传热板2可以用电加热或用煤气或其他燃料加热。
内部炉4是用长石作成的炉,将锗石60%重量、沸石10%重量、玉石10%重量、氟石10%重量及矿石10%重量用通常的粉碎机粉碎成约325目后,加入到该炉中。
在传热板2的内面及内部炉4的外面之间,装入粉碎成约325目的麦饭石3后,通过传热板2,在约1000℃左右下,加热9天。于是,麦饭石3,在初期温度1000℃下开始燃烧,通过燃烧过程中本身燃烧热(矿石热)升温到约3000℃。在内部炉4内的5种矿石粉6,由于高热,发生热变化,燃烧掉对人体有害的重金属,如表1所示,以20多种天然矿石为主成分,成为含有通常矿石的36种矿物的块状。麦饭石燃烧后,慢慢冷却。
如图2所示,将该块进一步细粉碎到约500目以上。
表1
成分 | 含量(重量%) | 成分 | 含量(重量)% |
水分 | 0.15 | 氧化钾(K2O) | 3.10 |
二氧化硅(SiO2) | 67.215 | 二氧化钛(TiO2) | 0.45 |
氧化铝(Al2O3) | 13.0 | 磷酸酐(P2O5) | 0.05 |
氧化亚铁(FeO) | 1.90 | 一氧化锰(MnO) | 0.20 |
氧化铁(Fe2O3) | 1.85 | 化合水(H2O) | 1.90 |
氧化镁(MgO) | 1.24 | 附着水(H2O) | 0.35 |
氧化钙(CaO) | 2.16 | Ge | 0.07(70ppm) |
氧化钠(Na2O) | 3.15 | Se | 0.065(65ppm) |
挥发成分 | 1.59 | 灼碱(Igloss) | 1.56 |
本发明的表1的上述矿石粉放出对人体有很大益处的远红外线及阴离子。
上述本发明实施例的多用途石粉,在37℃,波长为8-14μ的远红外线放射率是99.0%以上,每1kg石粉放出60万个以上的阴离子,氧发热量是560Kcal。在此,检查方法,对远红外线时,用KS.A5302-91测定,对阴离子用德国Schomandl社的型号为MDK-01C的阴离子测定装置测定,对氧发热量用KS.E3707-90测定。
上述石粉的pH是7.4-7.9。
如上所述,本发明的多用途石粉是大量放出远红外线及阴离子的石粉,是可以适用于食品、纤维、化妆品、涂料等的非常有用的发明。
Claims (2)
1.既可放出远红外线又可放出阴离子的石粉的制造方法,包括如下步骤:在由长石构成的内部炉(4)的内面附着薄银纸,向其中加入分别粉碎成325目的锗石60%重量、沸石10%重量、玉石10%重量、含氟石10%重量及矿石10%重量,在传热板(2)的内面和内部炉(4)的外面之间加入粉碎成325目的麦饭石(3),通过传热板(2)在1000℃下加热9天,将在内部炉(4)中发生了热变化的上述5种石粉(6)再次粉碎成500目以上。
2.由权利要求1所述的方法制备的既可放出远红外线又可放出阴离子的石粉,该石粉被粉碎成500目以上,并包括下列组分:水分0.15%重量、二氧化硅67.215%重量、氧化铝13.0%重量、氧化亚铁1.90%重量、氧化铁1.85%重量、氧化镁1.24%重量、氧化钙2.16%重量、氧化钠3.15%重量、氧化钾3.10%重量、二氧化钛0.45%重量、磷酸酐0.05%重量、一氧化锰0.20%重量、化合水1.90%重量、附着水0.35%重量、锗0.07%重量、硒0.65%重量、挥发成分1.59%重量、灼碱1.56%重量。
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CN1053350A (zh) * | 1990-01-20 | 1991-07-31 | 国营许昌烤烟厂 | 烟叶打叶工艺 |
CN2119938U (zh) * | 1992-05-29 | 1992-10-28 | 王维亭 | 含有锗元素及陶瓷粉的健身球 |
CN1087330A (zh) * | 1992-11-21 | 1994-06-01 | 吴建 | 稀土远红外陶瓷微粉的制备及其应用 |
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CN1053350A (zh) * | 1990-01-20 | 1991-07-31 | 国营许昌烤烟厂 | 烟叶打叶工艺 |
CN2119938U (zh) * | 1992-05-29 | 1992-10-28 | 王维亭 | 含有锗元素及陶瓷粉的健身球 |
CN1087330A (zh) * | 1992-11-21 | 1994-06-01 | 吴建 | 稀土远红外陶瓷微粉的制备及其应用 |
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