CN109641767A - 富氧水及/或富氢水制造机 - Google Patents
富氧水及/或富氢水制造机 Download PDFInfo
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- CN109641767A CN109641767A CN201780054979.2A CN201780054979A CN109641767A CN 109641767 A CN109641767 A CN 109641767A CN 201780054979 A CN201780054979 A CN 201780054979A CN 109641767 A CN109641767 A CN 109641767A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 459
- 229910001868 water Inorganic materials 0.000 title claims abstract description 459
- 229910052739 hydrogen Inorganic materials 0.000 title claims abstract description 249
- 239000001257 hydrogen Substances 0.000 title claims abstract description 249
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 title claims abstract description 243
- QVGXLLKOCUKJST-NJFSPNSNSA-N oxygen-18 atom Chemical compound [18O] QVGXLLKOCUKJST-NJFSPNSNSA-N 0.000 title claims abstract description 72
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 42
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 claims abstract description 216
- 239000001301 oxygen Substances 0.000 claims abstract description 216
- 229910052760 oxygen Inorganic materials 0.000 claims abstract description 216
- 239000012530 fluid Substances 0.000 claims abstract description 21
- 238000005868 electrolysis reaction Methods 0.000 claims abstract description 11
- CBENFWSGALASAD-UHFFFAOYSA-N Ozone Chemical compound [O-][O+]=O CBENFWSGALASAD-UHFFFAOYSA-N 0.000 claims description 17
- 239000000463 material Substances 0.000 claims description 11
- 239000011575 calcium Substances 0.000 claims description 9
- 239000011777 magnesium Substances 0.000 claims description 9
- 150000002431 hydrogen Chemical class 0.000 claims description 6
- 238000004088 simulation Methods 0.000 claims description 6
- 239000000126 substance Substances 0.000 claims description 6
- OYPRJOBELJOOCE-UHFFFAOYSA-N Calcium Chemical compound [Ca] OYPRJOBELJOOCE-UHFFFAOYSA-N 0.000 claims description 5
- FYYHWMGAXLPEAU-UHFFFAOYSA-N Magnesium Chemical compound [Mg] FYYHWMGAXLPEAU-UHFFFAOYSA-N 0.000 claims description 5
- 229910052791 calcium Inorganic materials 0.000 claims description 5
- 239000003610 charcoal Substances 0.000 claims description 5
- 230000005611 electricity Effects 0.000 claims description 5
- 229910052749 magnesium Inorganic materials 0.000 claims description 5
- WURFKUQACINBSI-UHFFFAOYSA-M ozonide Chemical compound [O]O[O-] WURFKUQACINBSI-UHFFFAOYSA-M 0.000 claims description 5
- 229910052710 silicon Inorganic materials 0.000 claims description 5
- 239000010703 silicon Substances 0.000 claims description 5
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 claims description 4
- 238000012790 confirmation Methods 0.000 claims description 4
- 239000000741 silica gel Substances 0.000 claims description 4
- 229910002027 silica gel Inorganic materials 0.000 claims description 4
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- 238000010276 construction Methods 0.000 claims description 2
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- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims 3
- 239000007921 spray Substances 0.000 claims 3
- 229910052742 iron Inorganic materials 0.000 claims 1
- 238000001727 in vivo Methods 0.000 abstract description 10
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 abstract description 9
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- XUIMIQQOPSSXEZ-UHFFFAOYSA-N Silicon Chemical compound [Si] XUIMIQQOPSSXEZ-UHFFFAOYSA-N 0.000 description 4
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- HNPSIPDUKPIQMN-UHFFFAOYSA-N dioxosilane;oxo(oxoalumanyloxy)alumane Chemical compound O=[Si]=O.O=[Al]O[Al]=O HNPSIPDUKPIQMN-UHFFFAOYSA-N 0.000 description 1
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Abstract
本发明涉及富氧水及/或富氢水制造机,是利用具有吸入或排出功能的流体泵将通过对水的电解发生氧/氢的氧/氢发生器所发生的氧或氢供应给水而制造富氧水及/或富氢水的富氧水及/或富氢水制造机,其能以便携式水瓶内的水为源水,简便、迅速、有效地使便携式水瓶内直接生成溶解有高纯度氧或氢的富氧水或富氢水,而饮用如此生成的富氧水或富氢水时,可以给体内供应新鲜空气并给体内供应氢,排除有害于人体的活性氧或活性炭而使人享受健康生活。
Description
技术领域
本发明涉及富氧水及/或富氢水制造机,具体是,该富氧水及/或富氢水制造机不需特别供应水,以便携式水瓶中装的生水为源水,使该生水强制循环同时用氧/氢发生器电解,产生高纯度氧或氢,将产生的氧或氢填充到便携式水瓶中,得到氧或氢被溶解的富氧水或富氢水并可以简单便利地装在便携式水瓶中且可以随时饮用。
背景技术
氧气是通过呼吸被吸进体内,通过血液输送到人体的各个器官,输送的氧气作为头脑活动和运动能量被消耗。
体内的氧消耗量是在各个组织之间存在较大差异,从大脑和肌肉的氧消耗量来看,大脑的氧消耗量更大。
大脑在所有脏器、器官中的氧消耗量最大,其重量只有1.4Kg,占体重的2%左右,但其对于氧的消耗量相当于全身对于氧的消耗量的25%左右。
大脑不像肌肉含有在体内可以储存一定氧气的“肌红蛋白”等物质,故输入的氧气会一瞬间就被消耗掉。
呼吸的空气变成无氧状态时,因肺部血液不发生所需的氧分压,导致呼吸该无氧空气会引发丧失意识的危险。
氧气在我们身体发挥氧化作用,帮助身体抵抗感染性微生物和致病菌。氧气应不断到达体内各处的细胞,否则无法维持生命。进行呼吸动作的心脏和肺,左右肺约有7亿肺细胞(肺泡)给血液供氧,通过心脏的泵作用,将血液输送至体内的各个角落。
大部分现代人的血液因运动不足和有害饮食被酸性化,胆固醇粘贴在血管上,阻碍血液的流动是所有成人病的根源,但供应新鲜的氧气,可以使衰弱的多个功能有效得到恢复。
本创作人作为注册权人的韩国专利申请第10-2003-0034755号的“富氧水制造机”就是如上所述的制造含大量氧气的水即富氧水制造机的一例。
所述富氧水制造机是使用通过PSA方式、隔膜方式和平膜方式等三种方法的氧气发生装置产生氧气,并迅速溶解于水而制造富氧水。
但,如上所述的现有富氧水制造机产生氧气的过程复杂,流体泵吸入空气压缩后输送到喷嘴时产生的湿气对所述喷嘴中的沸石产生作用,产生氧气时,使氧气纯度急剧下降。所述流体泵中产生的噪声和振动反而会给用户造成压力或影响睡眠,且流体泵内部还容易繁殖细菌。
目前开发一种利用电解方式的制氧机,但其使用的是碱电解质溶液,使用上需多加注意,安全性上也存在一定问题。
鉴于上述的诸多问题,创造且注册权人为本创作人的韩国专利申请第10-2005-31091号的“利用水的制氧机”是不使用电解质、添加剂等,是将水电解以后制造高纯度氧,其运行简便,不发生噪声,不使用碱等电解质,而安全方便管理,效率高,电消耗量少,外形简洁小巧。
但所述发明的利用水的制氧机的富氧水机及其它各种氧发生装置的富氧水机均需设置体积较大的水箱,用来供应产生氧气所需的源水,而且必须持续供水,或者经常更换大水桶供水,为补充水还需随时检查剩余量的水。
此外,将大体积的水箱或水桶连接安装后,不但体积变大,结构也变得非常复杂,导致生产成本增加,而且水的供应中断时,还会造成完全不可能使用的问题。
另一方面,活性氧中有害人体的(攻击力强的氧)是暴露在紫外线下会在体内大量发生。
活性氧并不全是有害人体。活性氧的种类包括过氧化物、过氧化氢、羟基等种类,过氧化物或过氧化氢等氧化力弱的活性氧进行对人体必要的活动,对血管的扩张、神经传递、精子形成、防癌、提高免疫力等发挥作用。
因此活性氧被全部排除时,反而对人体产生各种不良影响,因此一直开展氧化力强而选择性地清除有害人体的活性氧的方法方面的研究,即富氢水方面的研究。
因为氢与人体所需的氧化力弱的活性氧不产生反应,可以对攻击细胞或基因的氧化力强的不良活性氧即羟基选择性地进行还原。
除了活性氧以外,活性炭通过呼吸压力、食品添加剂、饮酒、吸烟、激烈运动、紫外线等不可避免地积在体内,积的越多,氧化作用变得越强,使体内氧化,因而是造成衰老和疾病等的原因。
富氢水也可以排除这种活性炭。氢进入体内以后,在碳的作用下分解成氢,原子氢与过剩碳结合变成水,进而将过剩碳排到体外。
如上所述,目前研究出很多可排除有害人体的活性氧和活性炭的氢发生器及用此的富氢水机,但和所述富氧水机同样,也存在诸多问题。
发明内容
技术课题
本发明是考虑到上述的诸多问题而研究,其目的在于,组成利用具有吸入或排出功能的流体泵将通过对水的电解发生氧或氢的氧/氢发生器(电解槽)上发生的氧或氢供应给水而制造富氧水及/或富氢水的富氧水及/或富氢水制造机,其是一种不需要供应其它的水,能以便携式水瓶内的水为源水,简便、迅速、有效地使便携式水瓶内直接生成富氧水或富氢水的特殊结构的富氧水及/或富氢水制造机且方便使用。
本发明的另一目的在于,在富氧/富氢水机主体200上给氧/氢发生器供电的供电线上连接设置可以将正/负电极切换供应的模拟或数字方式的电极切换开关,可以利用一个设备选择性地生成富氧水或富氢水,进而使消费者可以随意选择使用。
技术方案
为实现所述技术问题,本发明所采用的技术方案是,组成利用具有吸入或排出功能的流体泵将通过对水的电解而发生氧或氢的氧/氢发生器上发生的氧或氢供应给水而制造富氧水或富氢水的富氧水及/或富氢水制造机,装有水的便携式水瓶入口结合在下侧具备较长喷嘴的水瓶盖的状态下,将所述水瓶盖结合固定在富氧/富氢水机主体上形成的水瓶盖拧结部上,或者将所述水瓶盖在水瓶盖拧结部上先结合的状态下,再将便携式水瓶在所述水瓶盖上结合后,触摸主板上的富氧水/富氢水发生开关打开时,流体泵将便携式水瓶内的水通过设在水瓶盖喷嘴上的吸水孔强制吸入,并利用电磁阀通过设在喷嘴上的氧/氢吐出孔重新将水注入到便携式水瓶内,使水继续循环的同时,将由所述流体泵吸入的水利用水位传感器和电磁阀,随时供应给氧/氢发生器的同时使氧或氢发生,将所发生的氧或氢由流体泵强制吸入后,利用电磁阀通过水瓶盖的喷嘴上形成的氧/氢吐出孔喷出氧或氢,进而以便携式水瓶内的水为源水,可以直接在便携式水瓶内生成富氧水或富氢水。
有益效果
本发明的有益效果在于,本发明的富氧水及/或富氢水制造机具有体积小,可以随时便利地以便携式水瓶内的水为源水,在便携式水瓶内简便、迅速、有效地生成高纯度氧或氢并被溶解从而得到富氧水或富氢水;
本发明是在富氧水及/或富氢水制造机主体上给氧/氢发生器供电的供电线上连接设置可以将正/负电极切换供应的普通模拟或数字式电极切换开关,可以利用单一设备选择生成富氧水或富氢水而进一步扩大使用的便利性;
本发明是用户可以按需随时生成溶解有高纯度氧和氢的富氧水或富氢水,饮用如此生成的富氧水或富氢水,可以给体内供应新鲜氧气,还可以给体内提供氢,排除有害于人体的活性氧或活性炭而享受健康的生活,因此可谓是一项重大发明。
附图说明
图1至图7是显示本发明的富氧水及/或富氢水制造机的一实施例的示意图;
图1是装配状态透视图;
图2是部分分解状态背面透视图;
图3是显示富氧/富氢水机主体内部结构的概略图;
图4是水瓶盖和富氧/富氢水机主体分解状态的顶视透视图;
图5是水瓶盖和富氧/富氢水机主体分解状态的底视透视图;
图6是显示在富氧/富氢水机主体上利用水瓶盖结合便携式水瓶的状态侧视图;
图7是图6的主要部位放大剖视图;
图8是显示本发明的富氧水及/或富氢水制造机的另一实施例的示意图。
具体实施方式
下面将结合附图1至图8所示,对本发明的实施例详细地进行描述。但所描述的实施例是本发明一部分实施例,不是全部的实施例。基于本发明中的实施例;而这些修改或者替换,依然属于本发明的技术方案范围。而且说明本发明时,若对有关的公知功能或构成要素的具体说明使本发明宗旨变得模糊则省略该说明及具体图示。附图是为帮助理解本发明,并没有使用实际比例尺图示,其中一部分构成要素的尺寸有可能图示得较夸张。
本发明的利用氧/氢发生器的富氧水及/或富氢水制造机是用流体泵210将由水电解而发生氧或氢的氧/氢发生器220发生的氧或氢吸入后注入水中,进而制造富氧水或富氢水的富氧水及/富氢水制造机。
装有水的便携式水瓶10入口结合在下侧具备较长喷嘴110的水瓶盖100的状态下,将所述水瓶盖100结合固定在富氧/富氢水机主体200上形成的水瓶盖拧结部230上,或者将所述水瓶盖100在水瓶盖拧结部230上先结合的状态下,再将便携式水瓶10在所述水瓶盖100上结合后,触摸主板201上的富氧水/富氢水发生开关201a打开时,所述流体泵210将便携式水瓶10内的水通过设在水瓶盖100喷嘴110上的吸水孔112强制吸入,并控制电磁阀211通过设在水瓶盖100喷嘴110上的氧/氢吐出孔111重新将水注入到便携式水瓶10内,使水继续循环同时,所述水循环时,通过设在氧/氢发生器220上的水位传感器221的水位检测信号选择性地控制电磁阀211,给氧/氢发生器220随时供应水的同时,使氧或氢持续发生,然后将所发生的氧或氢由流体泵210强制吸入后,通过电磁阀211的控制,由水瓶盖100的喷嘴110上形成的氧/氢吐出孔111吐出氧或氢,以所述便携式水瓶10内的水为源水,将该水移至具有通过水的电解发生氧或氢的氧/氢发生器220的富氧/富氢水机主体200内,使氧或氢发生,然后将所发生的氧或氢直接输入到便携式水瓶10内,使便携式水瓶10内直接生成富氧水或富氢水。
在此,本发明是给所述富氧/富氢水机主体200上连接设置有给氧/氢发生器220供电的将正/负电极可以切换供电的普通模拟或数字式电极切换开关201b,并与氧/氢发生器220连接,在所述氧/氢发生器220的氢排出口220b侧还设置炭材质的除臭氧过滤器223,进而利用单一设备可以随意选择富氧水或富氢水生成,还可以利用电极切换开关201b切换正/负电极,使氢从氧排出口220a排出,氢排出口220b是,切换成排出氧时,可以使除臭氧过滤器223稳定地滤出与氧一起发生的臭氧和水中含有的钙(Ca)、镁(Mg)、硅(Si)等各种有、无机物质以及与臭氧结合的臭氧化合物质。
下面进一步详述本发明的一实施例。
本发明的利用氧/氢发生器的富氧水及/或富氢水制造机其结构大致是由结合便携式水瓶的水瓶盖100及结合所述水瓶盖100的富氧/富氢水机主体200构成。
就是说,用于结合便携式水瓶10的入口的水瓶入口结合部101及向下长长地形成的具备氧/氢吐出孔111和吸水孔112的喷嘴110的水瓶盖100;将水电解而发生氧/氢的氧/氢发生器220;与所述氧/氢发生器220连接设置而强制吸入水,将该水利用设在氧/氢发生器220上具备的水位传感器221的水位检测信号通过电磁阀211输送到氧/氢发生器220的同时,氧/氢发生器220是,基本在供氧连接于氧排出口220a,供氢时连接于氢排出口220b,吸入从氧/氢发生器220发生的氧或氢后,通过所述电磁阀211一起同时供应水和氧或氢的流体泵210;富氧/富氢水机主体200还包括设在所述富氧/富氢水机主体200前方的凸出头部200a,其底面设有水瓶盖拧结部230,所述水瓶盖拧结部230具有从流体泵210接收水和氧或氢的氧/氢供应流路232a,以及设有使流体泵210排水的水排出流路232b。
在此,本发明中所述便携式水瓶10的水瓶盖100的外缘上部两侧设有拧结凸块102,上部中央设有具备氧/氢供应流路120a以及水排出流路120b的硅胶材质的喷嘴盖120,所述水瓶盖拧结部230的入口内缘设有盖拧结槽231,入口上面设有具备氧/氢供应流路232a和水排出流路232b的硅质材料的喷嘴盖紧贴口232,进而将所述水瓶盖100的拧结凸块102插入水瓶盖拧结部230的盖拧结槽231并旋转使水瓶盖100结合于水瓶盖拧结部230的同时,所述喷嘴盖120上形成的氧/氢供应流路120a和水排出流路120b分别连通于喷嘴盖紧贴口232上形成的氧/氢供应流路232a和水排出流路232b而使水和氧/氢被输送。
另外,本发明在所述便携式水瓶10结合的水瓶盖100一侧上设置有磁铁130,所述水瓶盖拧结部230上侧设置磁传感器202,并将磁传感器202连接至主板201上,然后将水瓶盖100在水瓶盖拧结部230上固定拧结以后,磁传感器202感应到磁铁130接近,给主板201发送信号,进而通过灯亮或信号音确认便携式水瓶10结合在富氧/富氢水机主体200上。
此外,本发明是在所述水瓶盖拧结部230上设有具备投射窗233a的光投射孔233,用来投射主板201上的LED灯203的光,所述水瓶盖100上设置导光板140,在将便携式水瓶10在富氧/富氢水机主体200上固定拧结时,或者富氧水或富氢水生成中,LED灯203亮灯而发生的光通过光投射孔233传递到导光板140,使水瓶盖100发光,将便携式水瓶10与富氧/富氢水机主体200分离或富氧水/富氢水的生成结束以后,使LED灯203灭,进而从外部通过水瓶盖100可以轻松查看设备运行状态。
所述水位传感器221是检测氧/氢发生器220内的水位,需要水时对此产生感应,切换电磁阀211的流体方向,使水流入氧/氢发生器220,其形态可以多样,但本发明是使用浮子传感器(float sensor),使氧/氢发生器220的体积小巧简洁。
另外,未说明的符号222是炭材质的除臭氧过滤器,从通孔(未图示)流入水电解时与氧一起发生的臭氧和水中含有的钙(Ca)、镁(Mg)、硅(Si)等各种有、无机物质和结合臭氧的臭氧化合物质,用装配成一体的除臭氧过滤器222过滤而安全地获得高纯度氧。
另外,本发明是如附图8所示,在所述富氧/富氢水机主体200上,设有给氧/氢发生器220供电并且能够将正/负电极切换供电的普通模拟或数字式电极切换开关201b,所述电极切换开关201b与氧/氢发生器220连接设置,在所述氧/氢发生器220的氢排出口220b侧还设置炭材质的除臭氧过滤器223,进而利用单一设备可以随意选择富氧水或富氢水生成,还可以利用电极切换开关201b切换正/负电极,使氢从氧排出口220a排出,氢排出口220b是,切换成排出氧时,可以使除臭氧过滤器223稳定地滤出与氧一起发生的臭氧和水中含有的钙(Ca)、镁(Mg)、硅(Si)等各种有、无机物质以及与臭氧结合的臭氧化合物质,进而安全地获得高纯度氧。
下面说明本发明的富氧水及/或富氢水制造机的运行状态。
利用本发明的富氧水及/或富氢水制造机制造富氧水或富氢水时,首先将水瓶盖100上具备的水瓶入口结合部101在装有水的便携式水瓶10入口螺旋结合,将水瓶盖100拧结固定。
随之所述水瓶盖100上向下侧长长地形成的喷嘴110的下侧被淹在水中,进而设在所述喷嘴110下侧的氧/氢吐出孔111和吸水孔112也淹在水中。
在如上所述的状态下,将所述便携式水瓶10结合的水瓶盖100在富氧/富氢水机主体200的凸出头部200a上形成的水瓶盖拧结部230上固定拧结,但本发明的一实施例是,将所述水瓶盖100的拧结凸块102插进水瓶盖拧结部230的盖拧结槽231旋转,则水瓶盖100结合于水瓶盖拧结部230的同时,所述水瓶盖100的上部中央具备设有氧/氢供应流路120a及水排出流路120b的硅胶材质的喷嘴盖120,所述水瓶盖拧结部230的入口上面具备设有氧/氢供应流路232a和水排出流路232b的硅胶材质的喷嘴盖紧贴口232,使喷嘴盖120的上面可以紧贴在这些喷嘴盖紧贴口232底面,进而自然而然地,设在所述喷嘴盖120上的氧/氢供应流路120a和水排出流路120b分别连通于设在喷嘴盖紧贴口232上的氧/氢供应流路232a和水排出流路232b而使水和氧或氢可以移动。
另外,本发明也可以是将所述水瓶盖100先在水瓶盖拧结部230上结合的状态下,将便携式水瓶10在所述水瓶盖100上结合。
按以上方法将便携式水瓶10在富氧/富氢水机主体200上连接设置准备就绪以后,将所述主板201上的富氧水/富氢水发生开关201a触摸打开后,机器按设定的几分钟时间运行而在便携式水瓶10中生成富氧水/富氢水。
就是说,流体泵210将便携式水瓶10的水通过水瓶盖100喷嘴110上的吸水孔112强制吸入并移至富氧/富氢水机主体200内,然后控制电磁阀211,通过水瓶盖100的喷嘴110上形成的氧/氢吐出孔111重新注入到便携式水瓶10内,使水继续循环,所述水循环时吸进流体泵210的水是,由氧/氢发生器220上具备的水位传感器221检测水位在需要水时对此产生感应,使电磁阀211的流体方向转换,使水流入氧/氢发生器220而持续发生氧或氢,由流体泵210将所发生的氧或氢强制吸入,通过电磁阀211的控制,从水瓶盖100的喷嘴110上形成的氧/氢吐出孔111吐出。
因此氧或氢会持续进入便携式水瓶10内并溶解于水中,进而非常简便地在便携式水瓶10内直接生成富氧水或富氢水。
另一方面,本发明是对于便携式水瓶10的装配状态和富氧水及/或富氢水制造机的运行状态,可以用多种方法在外部轻松确认,作为本发明的一实施例,在所述水瓶盖拧结部230上侧设置磁传感器202,在所述便携式水瓶10结合的水瓶盖100一侧设置有磁铁130,将水瓶盖100在水瓶盖拧结部230上固定拧结时,磁传感器202检测到磁铁130接近,给主板201发送信号,并通过灯亮或信号音确认便携式水瓶10结合在富氧/富氢水机主体200上。
此外,本发明是在所述水瓶盖拧结部230上设有可投射主板201上的LED灯203光的光投射孔233,所述水瓶盖100上设置导光板140,将便携式水瓶10在富氧/富氢水机主体200上固定拧结时,或者富氧水/富氢水生成中,LED灯203亮灯而发生的光通过光投射孔233传递到导光板140而使水瓶盖100发光,将便携式水瓶10与富氧/富氢水机主体200分离或富氧水/富氢水的生成结束以后LED灯203灭,因此通过水瓶盖100从外部可以轻松查看设备运行状态。
因此使用本发明的富氧水及/或富氢水制造机,可以随时以便携式水瓶10内的水为源水,在便携式水瓶10内简单迅速地生成富氧水或富氢水,将如此生成的富氧水或富氢水按需饮用而使人享受健康的生活。
另外,本发明是如附图8所示,所述富氧/富氢水机主体200上给氧/氢发生器220供电的供电线上连接设置将正/负电极可以切换供电的普通模拟或数字式电极切换开关201b并与氧/氢发生器220连接,在所述氧/氢发生器220的氢排出口220b侧还设置炭材质的除臭氧过滤器223时,可以利用单一设备随意选择富氧水或富氢水生成,还可以利用电极切换开关201b切换正/负电极,使氧排出口220a排出氢,使氢排出口220b排出氧时,可以由除臭氧过滤器223稳定地滤出与氧一起发生的臭氧和水中含有的钙(Ca)、镁(Mg)、硅(Si)等各种有、无机物质以及与臭氧结合的臭氧化合物质,因此可以安全便利地使用本发明的设备。
以上实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所述的技术方案进行修改或者等同替换,而这些修改或者等同替换,并不使相应技术方案的本质脱离本发明各实施例所述技术方案的范围。
工业应用
本发明的富氧水及/或富氢水制造机是可以实现体积小型化的制造,可以随时以便携式水瓶内的生水为源水,在便携式水瓶内简便、迅速、有效地生成溶解有高纯度氧或氢富氧水或富氢水。
本发明是在所述富氧/富氢水机主体上连接设置给氧/氢发生器供电的供电线上可以将正/负电极切换供应的普通模拟或数字式电极切换开关,可以利用单一设备选择性地生成富氧水或富氢水而更加方便使用。
本发明使用户可以按需随时生成溶解有高纯度氧和氢的富氧水或富氢水,饮用如此生成的富氧水或富氢水而给体内供应新鲜氧气,并给体内提供氢而排除有害于人体的活性氧或活性炭而使人享受健康的生活,富氧水制造机或富氢水制造机等是在利用富氧水或富氢水的饮用水领域或美容领域可以广泛应用。
Claims (6)
1.一种富氧水及/或富氢水制造机,其特征在于,
作为利用具有吸入或排出功能的流体泵(210)将通过对水的电解而发生氧或氢的氧/氢发生器(220)所发生的氧或氢供应给水而制造富氧水或富氢水的富氧水及/或富氢水制造机,
装有水的便携式水瓶(10)入口结合在下侧具备较长喷嘴(110)的水瓶盖(100)的状态下,将所述水瓶盖(100)结合固定在富氧/富氢水机主体(200)上形成的水瓶盖拧结部(230)上,或者将所述水瓶盖(100)在水瓶盖拧结部(230)上先结合的状态下,再将便携式水瓶(10)在所述水瓶盖(100)上结合后,触摸主板(201)上具备的富氧水/富氢水发生开关(201a)打开时,流体泵(210)将便携式水瓶(10)内的水通过设在水瓶盖(100)喷嘴(110)上的吸水孔(112)强制吸入,并移至富氧/富氢水机主体(200)内以后,控制电磁阀(211)通过在水瓶盖(100)的喷嘴(110)上形成的氧/氢吐出孔(111)重新将水注入到便携式水瓶(10)内,使水继续循环,
所述水循环时,通过设在氧/氢发生器(220)上的水位传感器(221)的水位检测信号选择性地控制电磁阀(211),给氧/氢发生器(220)随时供应水的同时,使氧或氢持续发生,将所发生的氧或氢由流体泵(210)强制吸入后,通过电磁阀(211)的控制,由水瓶盖(100)的喷嘴(110)上形成的氧/氢吐出孔(111)喷出氧或氢,
进而以便携式水瓶(10)内的水为源水,将该水移至设有通过对水电解发生氧或氢的氧/氢发生器(220)的富氧/富氢水机主体(200)内,使氧或氢发生,然后将所发生的氧或氢直接输送到便携式水瓶(10)内,使便携式水瓶(10)内直接生成富氧水或富氢水。
2.根据权利要求1所述的富氧水及/或富氢水制造机,其特征在于,
所述富氧水及/或富氢水制造机包括:用于结合便携式水瓶(10)的入口的水瓶入口结合部(101)及向下侧长长地形成的独立结构的具备氧/氢吐出孔(111)和吸水孔(112)的喷嘴(110)的水瓶盖(100);
将水电解而发生氧/氢的氧/氢发生器(220);
与所述氧/氢发生器(220)连接设置而强制吸入水,将该水利用设在氧/氢发生器(220)上的水位传感器(221)的水位检测信号通过电磁阀(211)输送到氧/氢发生器(220),氧/氢发生器(220)是在供氧时连接于氧排出口(220a)侧,供氢时连接于氢排出口(220b)侧,吸入从氧/氢发生器(220)发生的氧或氢后,通过所述电磁阀(211)一起同时供应水和氧或氢的流体泵(210);
富氧/富氢水机主体(200)还包括设在所述富氧/富氢水机主体(200)前方的凸出头部(200a),其底面设有水瓶盖拧结部(230),所述水瓶盖拧结部(230)具有从流体泵(210)接收水和氧或氢的氧/氢供应流路(232a),以及设有使流体泵(210)排出水的水排出流路(232b)。
3.根据权利要求1或2所述的富氧水及/或富氢水制造机,其特征在于,
所述水瓶盖(100)的外缘上部两侧设有拧结凸块(102),上部中央设有具备氧/氢供应流路(120a)以及水排出流路(120b)的硅胶材质的喷嘴盖(120);
所述水瓶盖拧结部(230)的入口内缘设有盖拧结槽(231),入口上面设有具备氧/氢供应流路(232a)和水排出流路(232b)的硅质材料的喷嘴盖紧贴口(232);
将所述水瓶盖(100)的拧结凸块(102)插入水瓶盖拧结部(230)的盖拧结槽(231)并旋转使水瓶盖(100)结合于水瓶盖拧结部(230)的同时,所述喷嘴盖(120)上形成的氧/氢供应流路(120a)和水排出流路(120b)分别连通于喷嘴盖紧贴口(232)上形成的氧/氢供应流路(232a)和水排出流路(232b)而使水和氧或氢移动。
4.根据权利要求1或2所述的富氧水及/或富氢水制造机,其特征在于,
所述便携式水瓶(10)结合的水瓶盖(100)一侧上设置有磁铁(130),
在所述水瓶盖拧结部(230)上侧设置磁传感器(202),并将所述磁传感器(202)连接至主板(201)上,
然后将水瓶盖(100)在水瓶盖拧结部(230)上固定拧结以后,磁传感器(202)感应到磁铁(130)接近,给主板(201)发送信号,从而通过灯亮或信号音确认便携式水瓶(10)结合在富氧/富氢水机主体(200)上。
5.根据权利要求1或2所述的富氧水及/或富氢水制造机,其特征在于,
在所述水瓶盖拧结部(230)上设有能够投射主板(201)上的LED灯(203)光的光投射孔(233);
所述水瓶盖(100)上设置导光板(140),在将便携式水瓶(10)在富氧/富氢水机主体(200)上固定拧结时,或者富氧水或富氢水生成中,LED灯(203)亮灯而发生的光通过光投射孔(233)传递到导光板(140),使水瓶盖(100)发光;
将便携式水瓶(10)与富氧/富氢水机主体(200)分离或富氧水/富氢水的生成结束以后,使LED灯(203)灭,进而从外部通过水瓶盖(100)能够轻松查看设备运行状态。
6.根据权利要求1或2所述的富氧水及/或富氢水制造机,其特征在于,
在所述富氧/富氢水机主体(200)上设有给氧/氢发生器(220)供电并且能够将正/负电极切换供电的普通模拟或数字式电极切换开关(201b),所述电极切换开关(201b)与氧/氢发生器(220)连接设置,在所述氧/氢发生器(220)的氢排出口(220b)侧还设置有炭材质的除臭氧过滤器(223),
进而利用单一设备可以随意选择富氧水或富氢水生成,
利用电极切换开关(201b)切换正/负电极,使氧排出口(220a)排出氢,使氢排出口(220b)排出氧时,能够由除臭氧过滤器(223)滤出与氧一起发生的臭氧和水中含有钙、镁、硅的无机物质以及与臭氧结合的臭氧化合物质。
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CN117776346A (zh) * | 2024-02-28 | 2024-03-29 | 广州市纳爱生物科技有限公司 | 一种改善视觉疲劳的富氢水的制备方法 |
CN117776346B (zh) * | 2024-02-28 | 2024-05-28 | 广州市纳爱生物科技有限公司 | 一种改善视觉疲劳的富氢水的制备方法 |
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JP6667053B2 (ja) | 2020-03-18 |
JP2019529106A (ja) | 2019-10-17 |
KR101742948B1 (ko) | 2017-06-15 |
WO2018048260A1 (ko) | 2018-03-15 |
US11401613B2 (en) | 2022-08-02 |
US20190360109A1 (en) | 2019-11-28 |
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