CN105344166A - 大气甘露转化*** - Google Patents
大气甘露转化*** Download PDFInfo
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- CN105344166A CN105344166A CN201510431527.4A CN201510431527A CN105344166A CN 105344166 A CN105344166 A CN 105344166A CN 201510431527 A CN201510431527 A CN 201510431527A CN 105344166 A CN105344166 A CN 105344166A
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Abstract
本大气甘露转化***设备可以通过空气净化设备部分1过滤空气中的灰尘、烟尘、粉尘、棉绒、动物毛屑、螨虫、花粉、霉菌孢子和带菌微粒等,通过制水设备部分2控制空气湿度和增加负氧离子,向室内排放洁净空气,并且同时可以起到调节空气温度的功能;而制水设备部分2可以制得优质、清洁、无菌、无毒害、酸碱中性水三合一的饮用水,本大气甘露转化***设备集成了空调、空气净化器、纯净水机和酸碱水机的功能于一体,是一种更为具备优势的设备。
Description
技术领域
本发明涉及一种大气甘露转化***设备,具体的涉及空气净化设备和制水设备,更为具体的涉及一种能释放负氧离子的空气净化设备部分和从空气中的水份提取出优质、清洁、无菌、无毒害、酸碱中性水三合一的饮用水的制水设备机部分。
背景技术
目前人类比较容易利用淡水资源,主要来自河流、湖泊及浅层地下水,淡水资源在大量使用下不仅短缺,加上污染严重而且地区分布极不平衡,即使电和能源都充沛的地方,清洁的水资源仍然可能很缺乏,所以水资源正在变成一种宝贵的资源,水资源问题,更成为关系到国家经济、社会可持续发展和长治久安的重大战略。
在一些难获得清洁及缺乏水源的偏远地方,是很难地铺设一条长距离供水的长输管线提供饮用水,或不计算运输成本通过运输工具,往返运送饮用水,这些的方法会把使水的成本变得非常高,非人般老百姓能接受及享用生活必须的饮用水,除了成本非常高外,也可能因长距离的输送或运送,导致水质的变化或污染,最后人们也无法直接饮用。
另外人们在饮用水的需求量不一定很大(按照不同地区、不同的气候及不同的环境需求量不同),但其卫生、清洁、无菌、无毒害的要求则较高,基本上要求是一致,我们如何在有能源及电力的地方,在合理的成本下制做清纯饮水(人们以此为甘露),所以利用大气(空气)提取及生产饮用水,成为国家发展的迫切及急需要解决的问题。
大气甘露转化***设备可以家居小用量及工业大用量的水源及空气转化***,一方面去除空气中过量水和大气污染成分,净化空气,控制室内空气湿度;另一方面从把空气中的过量水转化为可饮用的保健水,以及把自来水或者其他非饮用水转化为可饮用的保健水,使得室内的空气和饮用水同时得到改善,适合一些对水质及空气质量要求高的家庭(儿童及老年人等)。
发明内容
本发明的目的在于提供一种大气甘露转化***设备,该***包括能释放负氧离子的空气净化设备部分和从空气中的水份提取出优质、清洁、无菌、无毒害、酸碱中性水三合一的饮用水的制水设备机部分。空气净化设备根据空气的湿度调节是否启动除湿功能,制备富含负氧离子的新鲜空气;制水设备机根据空气的水份多少来调节水量,在一些湿度高的海洋及内陆气候地区,它的制水量大。在一些受污染或水质不能饮用的地区可以通过初级过滤及二级的过滤,杀菌及消毒***净化为直接饮用水,净化水量可从家居用水到工商业用的饮用水。
为达到上述的目标,本发明采用的解决方案如下:
大气甘露转化***设备,它包括空气净化设备部分1和制水设备部分2。
所述空气净化设备部分1包括壳体11、设置在壳体内的过滤单元,所述过滤单元包括过滤网12、纤维布层13、活性炭网层14、驱动电机15、孔板16、叶轮17、排风口18、紫外杀菌灯19和控制面板110;所述壳体11中下部的左右两侧开壳孔,所述壳体11内且位于壳孔的前部设置有过滤网12,所述过滤网12的顶端设置有纤维布层13、位于所述纤维布层13的上方间隔设置有活性炭网14,所述过滤网12、纤维布层13、活性炭网层14、相互平行设置且与壳体1的内壁固定连接,位于所述活性炭网层14的上方设置有孔板16,所述孔板16与壳体1的内壁固定连接,所述孔板16上固定安装有用于驱动叶轮17的驱动电机15,所述驱动电机15的输出轴与叶轮17连接,所述壳体11顶端设置有排风板18,位于所述排风板18与孔板16之间壳体1的内壁上设置有紫外线杀菌灯19,位于所述壳体11的台阶处的外侧壁上设置有控制面板110。
所述制水设备部分2包括壳体21,机売上设置控制面版225、湿度控制器22、空气通过网23、冷凝蒸发器24、集水盘25、集水箱26、集水箱水位控制器27、增压泵28、过滤***29、反渗透净化***210、纳米紫外线杀菌消毒器211、恒温净水缸212、电解槽213、饮用酸水阀214、饮用碱水阀215、饮用中性水阀216、抽风机217、压缩机220、排风板223、负氧离子发生器226、自来水或不能饮用水源入口227。
所述的空气净化设备部分1与制水设备部分2通过管道00连接,所述管道00连接在所述排风板18和空气通过网23之间。
所述大气甘露转化***设备的工作原理是,通过驱动电机15控制叶轮17旋转,空气从壳孔进入壳体11内部,则过滤网12、纤维布层13、活性炭网14依次对空气进行处理,经过处理后的空气穿过孔板16再通过紫外线杀菌灯19对空气进行杀菌,由排风板18将经过净化后的空气由管道00排出至空气通过网23,由湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***,由冷凝蒸发器24把空气降温至露点的温度;在露点的温度下空气的水份便被提取凝结成水珠,水珠便从冷凝蒸发器自动滴到集水盘25上,集水盘25把水收集到集水箱26,集水箱26根据水位控制器27控制连接集水箱的增庒泵28把水增压,水到过滤***29把一般的微小杂质清除;再通过反渗透净化***210,通过吸附、超滤、超纯化把溶解在水中的绝大部分无机盐(包重金属)、有机物、细菌及病毒分隔,把水质直接转化为超纯水;超纯水再连接到接纳米紫外线杀菌消毒器211,再次净化后储存到净水缸,净水箱内置水位显示器及底部分别连接饮用中性水阀16和电解槽213,供使用者选择放出中性水或者通过电解槽213,由饮用酸水阀214、饮用碱水阀215放出酸水或碱水。经制水设备部分2的湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***后的净化和除湿空气,由冷凝蒸发器24通过负氧离子发生器226后经排风板223排出。
由湿度控制器控制器22控制从所述空气净化设备部分1的排风板18排放的初步处理的空气湿度是否足够提出空气中的水份,若空气湿度过低,低于38%,则抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***抽取水分功能便停止运作,而仅使用其调节空气温度的功能;而由自来水或未达饮用标准的水源227通过大气甘露转化***设备中增加泵28,连接过滤***29、反渗透净化***210和纳米紫外线杀菌消毒器211。所述大气甘露转化***设备的空气净化设备部分1,与室外连接,处理从室外抽入的空气,通过制水设备部分2向室内排放经过净化和增加负氧离子的优质空气。
自来水或未达饮用标准的水源227可经外置初级过滤器处理,如水源比较差的情况需要增加颗粒炭滤芯过滤器及活性炭过滤器,过滤水中染质,再接到大气甘露转化***制水机的增压泵28。
本大气甘露转化***设备可以通过空气净化设备部分1过滤空气中的灰尘、烟尘、粉尘、棉绒、动物毛屑、螨虫、花粉、霉菌孢子和带菌微粒等,通过制水设备部分2控制空气湿度和增加负氧离子,向室内排放洁净空气,并且同时可以起到调节空气温度的功能;而制水设备部分2可以制得优质、清洁、无菌、无毒害、酸碱中性水三合一的饮用水,本大气甘露转化***设备集成了空调、空气净化器、纯净水机和酸碱水机的功能于一体,是一种更为具备优势的设备。
以上所述,仅是本发明的较佳实施例,并非对本发明作任何限制,凡是根据本发明技术实质对以上实施例所作的任何简单修改、变更以及等效结构变化,均仍属于本发明技术方案的保护范围内。
附图说明
图1为大气甘露转化***设备示意图。
1为空气净化设备部分;2为制水设备部分;所述的空气净化设备部分1与制水设备部分2通过管道00连接。
图2为空气净化设备部分示意图。
图3-1为制水设备部分正面示意图。
图3-2为制水设备部分内部结构示意图。
图3-3制水设备部分背面示意图。
图4为冷凝蒸发器24的工作原理图。
图5为反渗透净化***210工作流程及原理图。
反渗透膜系統主要工作的原理是它采用反渗透膜技术。它的工作原理是对水施加一定的压力,使水分子和离子态的矿物质元素通过反渗透膜,而溶解在水中的绝大部分无机盐(包括重金属),有机物以及细菌、病毒等无法透过反渗透膜,从而使渗透过的纯净水和无法渗透过的浓缩水严格的分开;
反渗透膜上的孔径只有0.0001微米,而病毒的直径一般有0.02-0.4微米,普通细菌的直径有0.4-1微米,所以你尽可以放心大胆的饮用纯水机里流出的清泉。
图6为纳米紫外线杀菌消毒器211工作原理图。
纳米紫外线消毒器筒体用不锈钢制造,内壁多作抛光处理以提高对紫外线的反射能力和增强辐射强度,还可根据处理水量的大小调整紫外灯的数量。有的消毒器在筒体内壁加装了螺旋形叶片以改变水流的运动状态而避免出现死水和管道堵塞,所产生的紊流以及叶片锋利的边缘会打碎悬浮固体,使附着的微生物完全暴露于紫外线的辐射中,提高了消毒效率。
纳米紫外线杀菌消毒器的消毒原理,从紫外线杀菌主要是利用254纳米波长的紫外线光。此波长的紫外线光,即使是在微量的紫外线投射剂量下,也可以破坏一个细胞的生命核心——DNA,因此阻止细胞再生,丧失再生能力使细菌变得无害,从而达到灭菌的效果。象所有其它紫外线应用技术一样,这种***的规模取决于紫外线的强度(照射器的强度和功率)和接触时间(水、液体、或空气暴露在紫外线下的时间长短)。
图7为负氧离子发生器26的工作原理示意图。
负离子发生器26由壳体30,以及固定安装在该壳体内表面覆盖纳米二氧化钛的泡沫镍网第一电极34、纱布绝缘层35、不锈钢网第二电极36、电压转换电路32组成。所述第一电极34、纱布绝缘层35和第二电极36紧贴安装,组成具有电容特性的组件37。所述组件37与壳体30在安装固定的接触面处紧密接触,防止漏气。壳体30上设有空气进口31和空气出口33。空气从空气进口31流入,依次流经第一电极34、纱布绝缘层35、第二电极36,从空气出口33流出。所述氧负离子发生器由12V蓄电池(图中未画出)供电。该负氧离子发生器的作用原理是:空气由空气进口31进入负氧离子发生器的内部,其中的氧气与所述第一电极34接触时发生氧化还原反应,产生氧负离子,氧负离子随气流从空气出口33流出。
图8为大气甘露转化***设备工作流程图。
具体实施例
实施例1
空气湿度过高时大气甘露转化***设备的工作
通过驱动电机15控制叶轮17旋转,空气从壳孔进入壳体11内部,则过滤网12、纤维布层13、活性炭网14依次对空气进行处理,经过处理后的空气穿过孔板16再通过紫外线杀菌灯19对空气进行杀菌,由排风板18将经过净化后的空气由管道00排出至空气通过网23。
湿度控制调节器22检测,从空气通过网23中进入的空气湿度高于55%,湿度为65%,由湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***开始工作,由冷凝蒸发器24把空气降温至露点的温度;在露点的温度下空气的水份便被提取凝结成水珠,水珠便从冷凝蒸发器自动滴到集水盘25上,集水盘25把水收集到集水箱26,集水箱26根据水位控制器27控制连接集水箱的增庒泵28把水增压,水到过滤***29把一般的微小杂质清除;再通过反渗透净化***210,通过吸附、超滤、超纯化把溶解在水中的绝大部分无机盐(包重金属)、有机物、细菌及病毒分隔,把水质直接转化为超纯水;超纯水再连接到接纳米紫外线杀菌消毒器211,再次净化后储存到净水缸,净水箱内置水位显示器及底部分别连接饮用中性水阀16和电解槽213,供使用者选择放出中性水或者通过电解槽213,由饮用酸水阀214、饮用碱水阀215放出酸水或碱水。经制水设备部分2的湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***后的净化和除湿空气,通过负氧离子发生器226后经排风板223排出。
实施例2
空气湿度正常或过低时大气甘露转化***设备的工作
通过驱动电机15控制叶轮17旋转,空气从壳孔进入壳体11内部,则过滤网12、纤维布层13、活性炭网14依次对空气进行处理,经过处理后的空气穿过孔板16再通过紫外线杀菌灯19对空气进行杀菌,由排风板18将经过净化后的空气由管道00排出至空气通过网23。
湿度控制调节器22检测,从空气通过网23中进入的空气湿度低于38%,湿度为35%,由湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***停止抽取水分工作,而改成调节空气的温度,由冷凝蒸发器24把空气降温至合适的温度。
由自来水或未达饮用标准的水源227通过大气甘露转化***设备中增压泵28,连接过滤***29、反渗透净化***210和纳米紫外线杀菌消毒器211,再次净化后储存到净水缸,净水箱内置水位显示器及底部分别连接饮用中性水阀16和电解槽213,供使用者选择放出中性水或者通过电解槽213,由饮用酸水阀214、饮用碱水阀215放出酸水或碱水。经制水设备部分2的湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***后的净化和除湿空气,通过负氧离子发生器226后经排风板223排出。
Claims (3)
1.一种大气甘露转化***设备,所述大气甘露转化***设备包括空气净化设备部分1和制水设备部分2;
所述空气净化设备部分1包括壳体11、设置在壳体内的过滤单元,所述过滤单元包括过滤网12、纤维布层13、活性炭网层14、驱动电机15、孔板16、叶轮17、排风口18、紫外杀菌灯19和控制面板110;所述壳体11中下部的左右两侧开壳孔,所述壳体11内且位于壳孔的前部设置有过滤网12,所述过滤网12的顶端设置有纤维布层13、位于所述纤维布层13的上方间隔设置有活性炭网14,所述过滤网12、纤维布层13、活性炭网层14、相互平行设置且与壳体1的内壁固定连接,位于所述活性炭网层14的上方设置有孔板16,所述孔板16与壳体1的内壁固定连接,所述孔板16上固定安装有用于驱动叶轮17的驱动电机15,所述驱动电机15的输出轴与叶轮17连接,所述壳体11顶端设置有排风板18,位于所述排风板18与孔板16之间壳体1的内壁上设置有紫外线杀菌灯19,位于所述壳体11的台阶处的外侧壁上设置有控制面板110;
(1)所述制水设备部分2包括壳体21,机売上设置控制面版225、湿度控制器22、空气通过网23、冷凝蒸发器24、集水盘25、集水箱26、集水箱水位控制器27、增压泵28、过滤***29、反渗透净化***210、纳米紫外线杀菌消毒器211、恒温净水缸212、电解槽213、饮用酸水阀214、饮用碱水阀215、饮用中性水阀216、抽风机217、压缩机220、排风板223、负氧离子发生器226、自来水或不能饮用水源入口227;
所述的空气净化设备部分1与制水设备部分2通过管道00连接,所述管道00连接在所述排风板18和空气通过网23之间;
(2)所述大气甘露转化***设备的工作原理是,通过驱动电机15控制叶轮17旋转,空气从壳孔进入壳体11内部,则过滤网12、纤维布层13、活性炭网14依次对空气进行处理,经过处理后的空气穿过孔板16再通过紫外线杀菌灯19对空气进行杀菌,由排风板18将经过净化后的空气由管道00排出至空气通过网23;
(3)由湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***,由冷凝蒸发器24把空气降温至露点的温度;在露点的温度下空气的水份便被提取凝结成水珠,水珠便从冷凝蒸发器自动滴到集水盘25上;
(4)集水盘25把水收集到集水箱26,集水箱26根据水位控制器27控制连接集水箱的增庒泵28把水增压,水经过滤***29、反渗透净化***210、纳米紫外线杀菌消毒器211,再次净化后储存到恒温净水缸212;
(5)净水箱内置水位显示器及底部分别连接饮用中性水阀216和电解槽213,供使用者选择放出中性水或者通过电解槽213,由饮用酸水阀214、饮用碱水阀215放出酸水或碱水;经制水设备部分2的湿度控制调节器22、抽风机17、冷凝蒸发器24、压缩机220组成的空气抽取水份***后的净化和除湿空气,由冷凝蒸发器24通过负氧离子发生器226后经排风板223排出。
2.如权利要求1所述的大气甘露转化***设备,其特征在于所述设备还包括自来水或未达饮用标准的水源227,当湿度控制器控制器22检测湿度低于38%,由所述自来水或未达饮用标准的水源227通过大气甘露转化***设备中增加泵28,连接过滤***29、反渗透净化***210和纳米紫外线杀菌消毒器211。
3.如权利要求1或2所述的大气甘露转化***设备,其特征在于所述的负离子发生器26由壳体30,以及固定安装在该壳体内表面覆盖纳米二氧化钛的泡沫镍网第一电极34、纱布绝缘层35、不锈钢网第二电极36、电压转换电路32组成。所述第一电极34、纱布绝缘层35和第二电极36紧贴安装,组成具有电容特性的组件37。所述组件37与壳体30在安装固定的接触面处紧密接触,防止漏气。壳体30上设有空气进口31和空气出口33。空气从空气进口31流入,依次流经第一电极34、纱布绝缘层35、第二电极36,从空气出口33流出。所述氧负离子发生器由12V蓄电池(图中未画出)供电。该负氧离子发生器的作用原理是:空气由空气进口31进入负氧离子发生器的内部,其中的氧气与所述第一电极34接触时发生氧化还原反应,产生氧负离子,氧负离子随气流从空气出口33流出。
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CN201510431527.4A CN105344166A (zh) | 2015-07-21 | 2015-07-21 | 大气甘露转化*** |
HK16107355.6A HK1219248A1 (zh) | 2015-07-21 | 2016-06-23 | 大氣甘露轉化系統 |
PCT/CN2016/090612 WO2017012538A1 (zh) | 2015-07-21 | 2016-07-20 | 大气甘露转化*** |
JP2018522840A JP2018528860A (ja) | 2015-07-21 | 2016-07-20 | 大気飲料水転換システム |
EP16180554.4A EP3120907B1 (en) | 2015-07-21 | 2016-07-21 | Atmosphere dew transformation system |
ES16180554.4T ES2690266T3 (es) | 2015-07-21 | 2016-07-21 | Sistema de transformación de rocío atmosférico |
RS20181195A RS57878B1 (sr) | 2015-07-21 | 2016-07-21 | Sistem za transformaciju rose u atmosferi |
DK16180554.4T DK3120907T3 (en) | 2015-07-21 | 2016-07-21 | SYSTEM FOR TRANSFORMATION OF DUST FROM THE ATMOSPHERE |
PL16180554T PL3120907T3 (pl) | 2015-07-21 | 2016-07-21 | Układ do przetwarzania rosy z atmosfery |
LTEP16180554.4T LT3120907T (lt) | 2015-07-21 | 2016-07-21 | Atmosferos rasos transformacijos įrenginys |
HUE16180554A HUE040400T2 (hu) | 2015-07-21 | 2016-07-21 | Légkör-harmat-transzformációs rendszer |
PT16180554T PT3120907T (pt) | 2015-07-21 | 2016-07-21 | Sistema de transformação de orvalho atmosférico |
SI201630101T SI3120907T1 (sl) | 2015-07-21 | 2016-07-21 | Sistem za transformacijo atmosferske rose |
CY181101035T CY1120735T1 (el) | 2015-07-21 | 2018-10-05 | Συστημα μετασχηματισμου δροσου ατμοσφαιρας |
HRP20181631TT HRP20181631T1 (hr) | 2015-07-21 | 2018-10-10 | Sustav za transformiranja rose u atmosferi |
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WO2017012538A1 (zh) * | 2015-07-21 | 2017-01-26 | 吴达镕 | 大气甘露转化*** |
CN106705297A (zh) * | 2016-12-20 | 2017-05-24 | 广州东奥电气有限公司 | 一种气气换热式节能空气除湿造水机 |
WO2018036051A1 (zh) * | 2016-08-22 | 2018-03-01 | 深圳市天泉环保科技有限公司 | 一种制水、制冷、空气净化集成*** |
CN112553649A (zh) * | 2020-12-11 | 2021-03-26 | 珠海格力电器股份有限公司 | 一种消毒液制造机及其控制方法 |
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EP3120907B1 (en) | 2018-09-26 |
JP2018528860A (ja) | 2018-10-04 |
PT3120907T (pt) | 2018-11-07 |
CY1120735T1 (el) | 2019-12-11 |
EP3120907A1 (en) | 2017-01-25 |
HRP20181631T1 (hr) | 2018-12-14 |
DK3120907T3 (en) | 2018-11-05 |
ES2690266T3 (es) | 2018-11-20 |
HUE040400T2 (hu) | 2019-03-28 |
RS57878B1 (sr) | 2018-12-31 |
LT3120907T (lt) | 2018-11-12 |
PL3120907T3 (pl) | 2018-12-31 |
HK1219248A1 (zh) | 2017-03-31 |
WO2017012538A1 (zh) | 2017-01-26 |
SI3120907T1 (sl) | 2018-11-30 |
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