CN107151065B - 一种可自动进水持续喷雾的净水加湿一体装置及其制作方法 - Google Patents
一种可自动进水持续喷雾的净水加湿一体装置及其制作方法 Download PDFInfo
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- XLOMVQKBTHCTTD-UHFFFAOYSA-N Zinc monoxide Chemical compound [Zn]=O XLOMVQKBTHCTTD-UHFFFAOYSA-N 0.000 claims abstract description 34
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- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 claims abstract description 12
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- 229910052613 tourmaline Inorganic materials 0.000 claims description 17
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- 239000011032 tourmaline Substances 0.000 claims description 17
- 239000004575 stone Substances 0.000 claims description 16
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- HEMHJVSKTPXQMS-UHFFFAOYSA-M Sodium hydroxide Chemical compound [OH-].[Na+] HEMHJVSKTPXQMS-UHFFFAOYSA-M 0.000 claims description 12
- 238000010438 heat treatment Methods 0.000 claims description 12
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- ONDPHDOFVYQSGI-UHFFFAOYSA-N zinc nitrate Chemical compound [Zn+2].[O-][N+]([O-])=O.[O-][N+]([O-])=O ONDPHDOFVYQSGI-UHFFFAOYSA-N 0.000 claims description 8
- 239000004927 clay Substances 0.000 claims description 7
- 239000011248 coating agent Substances 0.000 claims description 6
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- SQGYOTSLMSWVJD-UHFFFAOYSA-N silver(1+) nitrate Chemical compound [Ag+].[O-]N(=O)=O SQGYOTSLMSWVJD-UHFFFAOYSA-N 0.000 claims description 6
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- 229910001961 silver nitrate Inorganic materials 0.000 claims description 3
- 238000001354 calcination Methods 0.000 claims description 2
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- 238000010304 firing Methods 0.000 claims description 2
- 238000009740 moulding (composite fabrication) Methods 0.000 claims 6
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- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 36
- 238000003860 storage Methods 0.000 description 19
- 229910052742 iron Inorganic materials 0.000 description 18
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- 238000000227 grinding Methods 0.000 description 4
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- 150000002500 ions Chemical class 0.000 description 3
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- 229920000742 Cotton Polymers 0.000 description 2
- HCHKCACWOHOZIP-UHFFFAOYSA-N Zinc Chemical compound [Zn] HCHKCACWOHOZIP-UHFFFAOYSA-N 0.000 description 2
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- 238000010586 diagram Methods 0.000 description 2
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- 239000011701 zinc Substances 0.000 description 2
- 229910052725 zinc Inorganic materials 0.000 description 2
- 238000001514 detection method Methods 0.000 description 1
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Abstract
本发明公开了一种可自动进水持续喷雾的净水加湿一体装置及其制作方法,所述装置包括银掺杂氧化锌多孔陶罐、多孔陶罐和活性炭滤料层,空气加湿功能区,其配有掺杂电气石的多孔陶板作为过滤层,饮用水功能区,其配有掺杂麦饭石的多孔陶板作为过滤层,所述活性炭滤料层铺设于所述银掺杂氧化锌多孔陶罐与所述多孔陶罐之间。所述装置利用银掺杂氧化锌多孔陶罐和活性炭滤料层对来水进行处理以得到对人体健康无威胁的纯净水,再根据空气加湿用水和饮用水的不同需求设置两个不同的功能室对过滤后得到的纯净水进行深度加工和处理,能够经济有效地解决雾化器用水问题。
Description
技术领域
本发明属于净化水技术领域,涉及过滤净水装置和加湿装置,尤其涉及一种可自动进水持续喷雾的净水加湿一体装置及其制作方法。
背景技术
我国北方气候干燥,沙尘较大,因此,各种空气加湿器应运而生,颇受人们青睐。然而,在空气加湿器的长期应用过程中,其弊端也日益凸显。一般情况下,人们在使用空气加湿器时,用水来源都是自来水,然而由于目前我国多数地区城市供水并不完全能够达到饮用水卫生标准,水中可能仍然残留一些微生物等多种对人体有害的成分,当这种处理不彻底的水作为加湿器水源时,最终产生的雾状水颗粒中也会残存对人体有害物质,通过人的呼吸系统进入人体,会对人的呼吸系统造成不同程度的损伤,危害人类健康。为了解决这一问题,现在较为普遍的处理方式是改变用水来源,使用纯净水作为雾化器用水水源,但是,这种方式并不经济持久。
发明内容
为了能够经济有效地解决雾化器用水问题,本发明提供了一种可自动进水持续喷雾的净水加湿一体装置及其制作方法。本发明利用银掺杂氧化锌多孔陶罐和活性炭滤料层对来水进行处理以得到对人体健康无威胁的纯净水,再根据空气加湿用水和饮用水的不同需求设置两个不同的功能室对过滤后得到的纯净水进行深度加工和处理,空气加湿功能区使用掺杂电气石的多孔陶板作为过滤层,饮用水功能区使用掺杂麦饭石的多孔陶板作为过滤层。空气加湿功能区的多孔陶板下设置雾化室,雾化室内通过浮球水位控制开关来实现雾化头自动在最佳水位下工作,雾化出的含有负离子的水汽通过导气管导出整个装置,输送到空气中,增加空气湿度的同时保证了对人体的无害化,并且喷出的水雾中含有负离子,还对空气起到净化作用,对人的身体健康有益。饮用水功能区的侧面底部设有一个出水阀门,可根据需要开启阀门接取含有人体所需的微量矿物元素的饮用水。
本发明提供的多功能陶罐过滤装置包括盖子、进水管、水泵、抽水管、水箱、浮球水位控制开关①、银掺杂氧化锌多孔陶罐、多孔陶罐、活性炭滤料层、电气石多孔陶板、麦饭石多孔陶板、隔水挡板①、导气管、浮球水位控制开关②、造雾头、隔水挡板②、隔水挡板③、出水阀门、外壳和总开关;
所述盖子中央开孔,所述进水管从开孔处伸入所述银掺杂氧化锌多孔陶罐内部;所述进水管与盖子相连部位的底部位于所述银掺杂氧化锌多孔陶罐上边缘齐水平面以下约1cm处;所述进水管位于所述盖子外部的部分通过所述水泵与所述抽水管相连;所述抽水管底部伸入到所述水箱底部;所述水泵通过电线与所述浮球水位控制开关①相连;所述水位控制开关①通过固定支架固定于所述银掺杂氧化锌多孔陶罐上边缘处;所述活性炭滤料层铺设于所述银掺杂氧化锌多孔陶罐与所述多孔陶罐之间;所述电气石多孔陶板位于所述多孔陶罐下方的空气加湿功能区;所述麦饭石多孔陶板位于所述饮用水功能区;所述隔水挡板①用于将空气加湿功能区和饮用水功能区分隔开;所述浮球水位控制开关②位于所述电气石多孔陶板下方;所述浮球水位控制开关②位于空气加湿功能区底部;所述浮球水位控制开关②位于由所述隔水挡板②和所述隔水挡板③围成的雾化室内;所述造雾头位于所述隔水挡板②和所述隔水挡板③围成的雾化室底部;所述隔水挡板③中部开孔与所述导气管相连;所述导气管通过所述隔水挡板③上的孔洞伸入所述雾化室;所述麦饭石多孔陶板下方形成饮用水储存区;所述饮用水储存区侧面底部装有所述出水阀门;所述外壳位于所述盖子下方;所述总开关位于外壳侧面所述出水阀门上方。
所述浮球水位控制开关①和浮球水位控制开关②均是通过杠杆和浮球来实现的,其主体部分具体制作步骤如下:一、用两两等长的四根铁柱首尾相接焊接成一个长方形,焊接成的长方形的长边是短边的两倍,所述由铁柱围成的长方形作为底部平面;二、另取2根等长铁柱垂直于铁柱围成的长方形底面并置于长方形底面较短一边的两个顶点处,接口处焊接牢固;三、再取与步骤二中相同的2根铁柱分别竖直位于长方形两条较长边的中点处,并与步骤二中2根铁柱围成一个正四棱柱空间,与铁板的接口处焊接牢固;四、将一个内含小铁块的浮球置于步骤三所述的四棱柱空间内,保证其可在这个空间内上下自由移动且不能通过铁柱之间的空隙取出;五、在步骤三中的2根铁柱顶端以下约5mm处焊接一个横向铁柱,另取一块厚度约1cm的长方形木板,木板上下两个长方形平面上,平行于长方形短边位于长边中点处各刨一个凹槽,将凹槽卡在步骤五所述横向铁柱上,木板另一面相同位置的凹槽处,另用一个横向铁柱卡住并焊接于步骤二中所述2根铁柱上;六、另取比步骤二中铁柱短1cm的铁柱,竖直焊接在底部铁柱形成的长方形底面剩下的两个顶点处,作为步骤五中所述木板围绕着步骤五中所述两个横向铁柱形成的卡槽位转动时限制转动角度的支撑柱;七、步骤五中所述木板水平放置时,在位于步骤二中所述2根铁柱一侧的正方形平面内的中心位置钻取一个小孔,取一根绳子穿过小孔,一端连接步骤四中所述内含小铁块的浮球,所述绳子位于步骤五中所述木板上方的一端连接另一个内含更小铁块的浮球,完成浮球水位控制开关内部主体部分的制作;八、步骤七中完成的内部主体部分外围用铁柱焊接一个四棱柱空间,四棱柱的四条竖直方向的棱分别位于步骤一中所述底面长方形四个顶点于底面中心连线背离中心方向并紧邻顶点处,即可完成浮球水位开关主体部分的制作。
所述浮球水位开关①的制作步骤五中木板位于打孔一侧的短边边缘底部安装导电片并通过导线连接到电源的负极,制作步骤二中所述2个竖直方向支撑柱的顶端之间连接一个导电片,所述导电片通过导线串联水泵后连接到电源正极。所述浮球水位开关②的制作步骤五中木板位于打孔一侧的短边边缘上部安装导电片并通过导线连接到电源的负极,制作步骤八中所述外围四棱柱顶端位于所述连接电源负极的木板短边边缘上部导电片的上方位置安装一个导电片并通过导线串联造雾头后连接到电源正极。所述铁柱及木板外表面均涂覆食品级油漆。
所述多孔陶罐的制作步骤如下:一、取70%-78%的陶土和22%-30%粉碎后的造孔剂混合均匀;二、步骤一中所得的混合物中添加一定量的水并在搅拌器中搅拌均匀;三、利用罐状模具和压力机对步骤二形成的泥水混合物压制成型;四、完全晾干后,以每秒2℃的升温速率升至850-1100℃,升至最高温后保温1-2h得到多孔陶罐。
所述银掺杂氧化锌多孔陶罐的制作步骤如下:一、取一定质量硝酸锌溶于水中,配置成锌的质量分数为5%-30%的溶液;二、取200-500ml步骤一中所述溶液涂于所述多孔陶罐内表面和外表面,晾干;三、配置0.1-0.5mol/l的氢氧化钠溶液,将其涂刷至所述多孔陶罐的内外表面,均匀涂刷1-5遍;四、将步骤三所得多孔陶罐在300-700℃的高温下煅烧1-5h,待冷却后取出;五、取0.1mol/L的硝酸银溶液涂刷至步骤四所得多孔陶罐内外表面,涂刷1-2层,在60-200℃烘干20min-1h,即可得到银掺杂氧化锌多孔陶罐。
所述电气石多孔陶板的制作步骤如下:一、电气石粉、陶土、造孔剂磨碎后混合均匀,其各自的质量百分比分别为10%-50%、40%-80%、10%-40%;二、加入一定量的水后,利用模具和压力机压制成型;三、完全晾干后放入炉窑中,以2℃/min的升温速率升至850-1200℃,达到最高温度后,保温1-2h,即可得到电气石多孔陶板。
所述麦饭石多孔陶板制作步骤如下:一、麦饭石、陶土、造孔剂磨碎后混合均匀,其各自的质量百分比分别为10%-50%、40%-80%、10%-40%;二、加入一定量的水后,利用模具和压力机压制成型;三、完全晾干后放入炉窑中,以2℃/min的升温速率升至850-1200℃,达到最高温度后,保温1-2h,即可得到麦饭石多孔陶板。
所述造雾头串联在所述浮球水位控制开关②上并顺次串联到电源上。所述造雾头所在支路与所述气泵所在支路相互并联后接入主线路与电源连接。所述所有隔水挡板均由漆包木或漆包铁制成。所述总开关与电源相连,串联在电路干路上。
本发明的有益效果:
本发明提供的可自动进水持续喷雾的净水加湿一体装置利用银掺杂氧化锌多孔陶罐和活性炭滤料层对来水进行处理以得到对人体健康无威胁的纯净水,再根据空气加湿用水和饮用水的不同需求设置两个不同的功能室对过滤后得到的纯净水进行深度加工和处理,能够经济有效地解决雾化器用水问题。
附图说明
图1为本发明可自动进水持续喷雾的净水加湿一体装置的结构示意图。
图中:1.盖子;2.进水管;3.水泵;4.抽水管;5.水箱;6.浮球水位控制开关①;7.银掺杂氧化锌多孔陶罐;8.活性炭滤料层;9.多孔陶罐;10.电气石多孔陶板;11.麦饭石多孔陶板;12.隔水挡板①;13.导气管;14.浮球水位控制开关②;15.造雾头;16.隔水挡板②;17.隔水挡板③;18.出水阀门;19.外壳;20.总开关;
图2为本发明装置的浮球水位控制开关①内部主体部分的结构示意图。
图中:1.浮球①;2.导电片;3.支撑架;4.棉线;5.浮球②;6.杠杆板;7.中心支撑横栏;
图3为本发明装置的浮球水位控制开关②内部主体部分和外围四棱柱框架的结构示意图。图中:1.导电片;2.浮球③;3.支撑架;4.棉线;5.浮球④;6.杠杆板;7.中心支撑横栏;8.外围四棱柱框架;
图4为本发明装置的浮球水位控制开关①和浮球水位控制开关②中杠杆板的俯视图。
图5为本发明装置的浮球水位控制开关①和浮球水位控制开关②中杠杆板的侧视图。
具体实施方式
下面结合附图和实施例,对本发明进一步详细说明。
图1中所述水箱装满水后打开总开关,所述水泵处于工作状态,缓慢抽水至所述银掺杂多孔陶罐中,约4h后所述浮球开关②接通,所述造雾头开始运行,所述导气管向外喷雾状水颗粒,经检测喷出的水雾中含有负离子。6h后从打开所述出水阀门接取过滤后的水进行检测,各项指标均达到国家饮用水卫生标准。
实施例1
图1中所述多孔陶罐的多孔陶罐制作步骤如下:
一、取70%的陶土和30%的造孔剂,粉碎后,过60目筛,混合均匀;
二、步骤一中所得的混合物中添加一定量的水并在搅拌器中搅拌均匀;
三、利用罐状模具和压力机对步骤二形成的泥水混合物压制成型;
四、完全晾干后,放入炉窑中烧制,以每秒2℃的升温速率升至1000℃,升至最高温后保温1h得到多孔陶罐。
实施例2
所述银掺杂氧化锌多孔陶罐的制作步骤如下:
一、取一定质量硝酸锌溶于水中,配置成锌的质量分数为30%的溶液;
二、取500ml步骤一中所述溶液涂于所述多孔陶罐内表面和外表面,晾干;
三、配置0.5mol/l的氢氧化钠溶液,将其涂刷至所述多孔陶罐的内外表面,均匀涂刷3遍;
四、将步骤三所得多孔陶罐在400℃的高温下煅烧5h,待冷却后取出;
五、取0.1mol/L的硝酸银溶液涂刷至步骤四所得多孔陶罐内外表面,涂刷2层,在200℃烘干40min,即可得到银掺杂氧化锌多孔陶罐。
实施例3
所述电气石多孔陶板的制作步骤如下:
一、电气石粉、陶土、造孔剂磨碎后过80目筛并混合均匀,其各自的质量百分比分别为20%、50%、30%;
二、加入一定量的水后,利用模具和压力机压制成型;
三、完全晾干后放入炉窑中,以2℃/min的升温速率升至1000℃,即可得到电气石多孔陶板。
实施例4
所述麦饭石多孔陶板制作步骤如下:
一、麦饭石、陶土、造孔剂磨碎后过80目筛后混合均匀,其各自的质量百分比分别为20%、50%、30%;
二、加入一定量的水后,利用模具和压力机压制成型;
三、完全晾干后放入炉窑中,以2℃/min的升温速率升至1000℃,即可得到麦饭石多孔陶板。
上述实施例对本发明的技术方案进行了详细说明。显然,本发明并不局限于所描述的实施例。基于本发明中的实施例,熟悉本技术领域的人员还可据此做出多种变化,但任何与本发明等同或相类似的变化都属于本发明保护的范围。
Claims (7)
1.一种可自动进水持续喷雾的净水加湿一体装置,其特征在于,所述装置包括银掺杂氧化锌多孔陶罐、多孔陶罐和活性炭滤料层,空气加湿功能区,其配有掺杂电气石的多孔陶板作为过滤层,饮用水功能区,其配有掺杂麦饭石的多孔陶板作为过滤层,所述活性炭滤料层铺设于所述银掺杂氧化锌多孔陶罐与所述多孔陶罐之间;所述装置还包括隔水挡板用于将空气加湿功能区和饮用水功能区分隔开;所述装置利用银掺杂氧化锌多孔陶罐、多孔陶罐和活性炭滤料层对来水进行过滤处理以得到对人体健康无威胁的纯净水,再根据空气加湿用水和饮用水的不同需求设置两个不同的功能区对过滤处理后得到的纯净水进行深度加工和处理。
2.根据权利要求1所述装置,其特征在于,所述空气加湿功能区的多孔陶板下设置雾化室,雾化室内通过浮球水位控制开关实现雾化头在最佳水位下工作,雾化水汽通过导气管输出所述装置。
3.根据权利要求1所述装置,其特征在于,所述饮用水功能区的底部设有出水阀门。
4.权利要求1-3任一项所述可自动进水持续喷雾的净水加湿一体装置的制作方法,其特征在于,包括以下步骤:
(1)制作银掺杂氧化锌多孔陶罐和多孔陶罐;
(2)制作电气石多孔陶板;
(3)制作麦饭石多孔陶板;
其中所述多孔陶罐的制作步骤如下:
1)将70%-78%的陶土和22%-30%磨碎后的造孔剂加水混合;
2)使用罐状模具和压力机将步骤1)所得物压制成型,晾干;
3)将步骤2)所得物放入炉窑中烧制,以每秒2℃的升温速率升至850-1100℃,达到最高温度后,保温1-2h得到多孔陶罐。
5.根据权利要求4所述制作方法,其特征在于,所述银掺杂氧化锌多孔陶罐的制作步骤如下:
1)将70%-78%的陶土和22%-30%磨碎后的造孔剂加水混合;
2)使用罐状模具和压力机将步骤1)所得物压制成型,晾干;
3)将步骤2)所得物放入炉窑中烧制,以每秒2℃的升温速率升至850-1100℃,达到最高温度后,保温1-2h得到多孔陶罐;
4)配置质量分数为5-30%的硝酸锌溶液,将其用于涂覆步骤3)所得多孔陶罐的内外表面;
5)配置0.1-0.5mol/l的氢氧化钠溶液,将其用于涂覆步骤4)所得多孔陶罐的内外表面;
6)将步骤5)所得多孔陶罐在300℃-700℃煅烧1-5h,冷却;
7)将0.1mol/L的硝酸银溶液涂覆步骤6)所得多孔陶罐的内外表面;
8)将步骤7)所得多孔陶罐在60-200℃烘干20min-1h,得到银掺杂氧化锌多孔陶罐。
6.根据权利要求4所述制作方法,其特征在于,所述电气石多孔陶板的制作步骤如下:
1)将磨碎后的电气石粉、陶土和造孔剂按质量百分比10%-50%、40%-80%、10%-40%混合;
2)将步骤1)所得混合物加水搅拌后利用模具和压力机压制成型,晾干;
3)将步骤2)所得物放入炉窑中,以2℃/min的升温速率加热至850-1200℃,达到最高温度后,保温1-2h,即可得到电气石多孔陶板。
7.根据权利要求4所述制作方法,其特征在于,所述麦饭石多孔陶板制作步骤如下:
1)将磨碎后的麦饭石、陶土、造孔剂按质量百分比10%-50%、40%-80%、10%-40%混合;
2)将步骤1)所得混合物加水搅拌后利用模具和压力机压制成型,晾干;
3)将步骤2)所得物放入炉窑中,以2℃/min的升温速率加热至850-1200℃,达到最高温度后,保温1-2h,即可得到麦饭石多孔陶板。
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