CN1715794A - 圆柱形纳米光电子空气净化器 - Google Patents
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Abstract
圆柱形纳米光电子空气净化器,圆柱形状结构的机体内包括抽风扇,控制电路板,隔尘网,开关,指示灯,极端紫外放射光线发射管,空气集聚器,负极高电压碳纤维线,电源输入插座,机体由前机体和后机体构成,前机体上设有出气口后机体上设置入气口,负极高电压纤维固定于出气口内,所述极端紫外放射光线发射管固定于入气口内,抽气扇则固定于机体内的出气口内表面。负离子发生器所产生的负离子可促进生物化学作用(增加呼吸时所吸入的负离子量)和减低可令人产生抑郁和疲劳的荷尔蒙分泌。以极端紫外放射光线管产生253.7纳米波长的极端紫外放射光线,能消减空气中的细菌、病毒和霉菌。
Description
技术领域
本发明涉及一种圆柱形纳米光电子空气净化器,具体的说以极端紫外放射光线消灭空气中的细菌、病毒和霉菌等,通过增加环境下的负离子量改善空气质量,而且它可以使用市电供电或汽车电源等。
背景技术
在现代社会,空调设备已是大多数家庭、医院、老人院、百货公司、电影院、餐馆、办公室、生产车间、以及电梯、大中小型汽车、轮船、飞机和火车内的必备装置,在冬季和夏季室内的暖气和冷气开放,使得室内空气不流通需要人工净化空气。尤其SARS病毒的传播,室内空气的净化越来越受到人们的重视。室内空气的净化不单要更换新鲜的空气,更要对空气中的病毒、细菌、霉菌等进行杀灭。目前,空气净化的方式有常规的空气清新器采用高压电离产生负离子,有些空调器带有这类装置,另外,医院使用的紫外线杀菌灯,可以非常有效的杀灭空气中的病菌。这两种清洁空气的方式都有各自的优点,但也存在明显的缺陷,例如,负氧离子杀菌的效果不强,紫外线灯不能长时间使用,照射到人体还会造成伤害。
发明内容
本发明的目的就是为克服现有技术的缺陷,提供一种圆柱形结构的纳米光电子杀菌杀病毒空气净化器。
本发明的目的是通过以下技术方案实现的。
本发明的圆柱形纳米光电子空气净化器,圆柱形状结构的机体内包括抽风扇,控制电路板,隔尘网,开关,指示灯,极端紫外放射光线发射管,空气集聚器,负极高电压炭纤维线,电源输入插座,其特征在于所述机体由前机体和后机体构成,前机体上设有出气口后机体上设置入气口,所述负极高电压纤维固定于出气口内,所述极端紫外放射光线发射管固定于入气口内,抽气扇则固定于机体内的出气口内表面。
根据前项所述的圆柱形纳米光电子空气净化器,其特征在于有弧面形状结构的排风框格固定在前机体前端的前出气口的平面上,进风框格固定在后机体的后端上,进风框格提供入气口作固定隔尘架,隔尘网,贴于前机体的出气口内表面是抽风扇及光电子出气框架格器,炭纤维线固定在排风框格的后表面上;光电子入气框架格器和光电子出气框架格器连结一起构成空气集聚器,空气集聚器的前、后方均有遮挡墙;极端紫外放射光线发射管固定架中央是极端紫外放射光线发射管,极端紫外放射光线发射管固定架上端和旋转盖活动连结。
根据前项所述的圆柱形纳米光电子空气净化器,其特征在于所述极端紫外放射光线发射管固定架下端与极端紫外放射光线发射管供电电源相连接的移动切换开关相接触。
根据前项所述的圆柱形纳米光电子空气净化器,其特征在于所述前机体前端下方表面设有开关和时间旋钮,以及用作功能指示的发光两极管;所述后机体上端固定有手挽件。
根据前项所述的圆柱形纳米光电子空气净化器,其特征在于所述前机体和后机体的下端由支撑底盘连接在一起,而支撑底盘的下端有四个防震脚;支撑底盘内提供位置固定控制电路板,控制电路板包括电源电子发生器、电子转换器和时间控制器;控制电路板上端有极端紫外放射光线发射管接电插座、移动切换开关、电源插座。
本发明的优点是,负离子发生器所产生的负离子可促进生物化学作用(增加呼吸时所吸入的负离子量)和减低可令人产生抑郁和疲劳的荷尔蒙分泌。以极端紫外放射光线管产生253.7纳米波长的极端紫外放射光线,能消减空气中的细菌、病毒和霉菌。因此,本净化器适合于在现代社会,空调设备已是大多数家庭、医院、老人院、百货公司、电影院、餐馆、办公室、生产车间、以及电梯、大中小型汽车、轮船、飞机和火车内装备使用,使人们的生活、居住、医疗、办公、消费以及搭乘交通运输工具等等的环境得以改善,在自然环境不断被破坏的现代社会还给人类洁净的空间。
附图说明
图1是本发明的产品外形侧面图。
图2是图1中所述的产品纵剖视图。
图3是图1中所述的产品横剖视图。
图4是图1所示产品的正视图。
图5是图1所示产品的后视图。
图6是图1所示产品的另一侧视图。
图7是图1所示产品的俯视图。
图8是图1所示产品的底视图。
图9是图1所示产品的结构分解图。
具体实施方式
下面结合附图中的实施例对本发明的技术方案进行进一步的说明。
圆柱形纳米光电子空气净化器用极端紫外放射光线,能消灭空气中的细菌、病毒和霉菌等,同时可增加环境下的负离子量。
本发明的圆柱形纳米光电子空气净化器是包括:有抽气扇、极端紫外放射光线发射管及负极高电压放电纤维。当空气经抽气扇抽入圆柱形纳米光电子空气净化器,有两种不断循环的工作方式,第一种是负极高电压输出经碳化纤维线放电,电离空气产生负离子由出气口排出。第二种是点燃极端紫外放射光线杀灭空气中的细菌、病毒和霉菌等。圆柱形纳米光电子空气净化器上有一个入气口及一个出气口。负极高电压纤维固定于出气口内及极端紫外放射光线发射管固定于所述之入气口内,而抽气扇则固定于机体内,抽取含有细菌、病毒和霉菌的空气经入气口进入机体内,使移动空气容易进入并穿过光电子杀菌杀病毒霉菌框架格器到达出气框架格器,使含有细菌、病毒和霉菌的空气必须接触极端紫外放射光线发射管,使极端紫外放射光线消减空气中的细菌、病毒和霉菌,再经过负离子机的净化,出空气口排出含有负离子的清新空气,便可改善室内环境空气之质素。极端紫外放射光线发射管的管内的土层为纳米材料,使得发射管具有更高的工作效率。
圆柱形纳米光电子空气净化器,包括有圆柱形结构形状的前机体1和后机体2,有弧面形状结构的排风框格3是固定在前机体1的前端的前出气口4的平面上,而电离后的空气经排风框格3排出。
图2和图3示出圆柱形纳米光电子空气净化器的详细结构,后机体2的后端上有进风框格5,进风框格5提供入空气口作固定隔尘架6,和隔尘网7,贴于前机体1的出气口4内表面是抽风扇8及光电子出气框架格器9,而炭纤维线10是固定在排风框格3的后表面上,在负极高电压下产生电离空气功能。光电子入气框架格器19是和光电子出气框架格器9连结一起,成为空气集聚器27。而极端紫外放射光线发射管固定架20中央是固定极端紫外放射光线发射管21,极端紫外放射光线发射管固定架20上端是和旋转盖22活动连结;前机体1和后机体2的上端有平面板23和顶封盖24。显然,使用者旋转盖22并拉起时,极端紫外放射光线发射管固定架20便可通过平面板23中央的长方孔25和顶封盖24中央的长方出口26取出,作清理或更换极端紫外放射光线发射管21,并且极端紫外放射光线发射管固定架20在取起同时,移动切换开关17会关掉圆柱形纳米光电子空气净化器的电源,提供安全性电路,不会危害使用者。
手挽件11是固定于后机体2上端,提供使用者易提带。
支撑底盘12提供位置固定电源电子发生器13、电子转换器14和时间控制器15。在电源电子发生器13、电子转换器14上端有极端紫外放射光线发射管接电插座16、移动切换开关17、电源插座18。支撑底盘12是连结于前机体1和后机体2的下端,而支撑底盘12的下端有四个防震脚31供支撑圆柱形纳米光电子空气净化器于任何平面上使用。
前机体1前端下方表面有两个大圆孔26来固定电源开关32,和时间旋钮28,另有多个小圆孔29是固定不同颜色的发光两极管30用作功能指示用途。
在实际工作中,当圆柱形纳米光电子空气净化器开动,抽风扇8抽入含有细菌、病毒和霉菌的空气经隔尘网7移动入前机体1内的空气集聚器27,该空气集聚器27的后端上有多个长条格28,使移动空气容易进入并穿过空气集聚器27到达排风框架格器3。极端紫外放射光线管21设在空气集聚器27的中央,换而言之,含有细菌、病毒和霉菌的空气移动并进入空气集聚器27两旁的空气集聚墙29,再移动入极端紫外放射光线发射管21和空气集聚墙29间的进空气口30,含有细菌、病毒和霉菌的空气在移动并进入进空气口30时,极端紫外放射光线发射管21和发出极端紫外放射光线,便消灭空气中细菌、病毒和霉菌等;这时,已净化的空气被抽风扇8排往到排风框格3的负极高电压炭纤维线10负离子净化,在排风框格3排出含有负离子的新鲜空气,便可改善室内环境空气之质素。
所述的空气集聚器27的前、后方均有遮挡墙31,该遮挡墙31是防止极端紫外放射光线向前机体1外放射,保护使用者的双眼。
圆柱形纳米光电子空气净化器电路原理,输入市电电压经开关28到负离子高压产生电路,提供一负高电压输出。输入电源亦另外经一个全波整流电路,后提供电力经速度控制电路,供电给抽风扇8,和经直流转交流电路,开动极端紫外放射光线发射管21全波整流电路,另一路经直流稳压电路,向负离子产生电路/极端紫外放射光线发射管21激活电路的自动循环控制电路供电,控制负离子产生器及极端紫外放射光线发射管21工作。本发明的电路构造已经是现有技术,在此不再赘述。
在开动开关28,可选择长期或时间性开动圆柱形纳米光电子空气净化器,如选择时间性开动,可以再调节时间开关27,来选择合适的时间作自动关闭电源。
以上只是对本发明技术方案和实施例的描述,而不是对本申请技术方案的限定,显然实现本发明创造有多种形式,本领域的技术人员可以根据本申请权利要求所限定的内容和精神作出各种改进。
Claims (5)
1.圆柱形纳米光电子空气净化器,圆柱形状结构的机体内包括抽风扇,控制电路板,隔尘网,开关,指示灯,极端紫外放射光线发射管,空气集聚器,负极高电压炭纤维线,电源输入插座,其特征在于所述机体由前机体和后机体构成,前机体上设有出气口后机体上设置入气口,所述负极高电压纤维固定于出气口内,所述极端紫外放射光线发射管固定于入气口内,抽气扇则固定于机体内的出气口内表面。
2.根据权利要求1所述的圆柱形纳米光电子空气净化器,其特征在于有弧面形状结构的排风框格固定在前机体前端的前出气口的平面上,进风框格固定在后机体的后端上,进风框格提供入气口作固定隔尘架,隔尘网,贴于前机体的出气口内表面是抽风扇及光电子出气框架格器,炭纤维线固定在排风框格的后表面上;光电子入气框架格器和光电子出气框架格器连结一起构成空气集聚器,空气集聚器的前、后方均有遮挡墙;极端紫外放射光线发射管固定架中央是极端紫外放射光线发射管,极端紫外放射光线发射管固定架上端和旋转盖活动连结。
3.根据权利要求2所述的圆柱形纳米光电子空气净化器,其特征在于所述极端紫外放射光线发射管固定架下端与极端紫外放射光线发射管供电电源相连接的移动切换开关相接触。
4.根据权利要求2所述的圆柱形纳米光电子空气净化器,其特征在于所述前机体前端下方表面设有开关和时间旋钮,以及用作功能指示的发光两极管;所述后机体上端固定有手挽件。
5.根据权利要求1、2、3、4所述的圆柱形纳米光电子空气净化器,其特征在于所述前机体和后机体的下端由支撑底盘连接在一起,而支撑底盘的下端有四个防震脚;支撑底盘内提供位置固定控制电路板,控制电路板包括电源电子发生器、电子转换器和时间控制器;控制电路板上端有极端紫外放射光线发射管接电插座、移动切换开关、电源插座。
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JP2005154599A JP2006006923A (ja) | 2004-06-28 | 2005-05-26 | ナノ電子光学式空気滅菌器、及びイオン化装置を備えた新鮮空気生成器 |
GB0512546A GB2415627B (en) | 2004-06-28 | 2005-06-20 | An electro-optical air purifier |
GB0513184A GB2415879B (en) | 2004-06-28 | 2005-06-28 | Photo-electronic air-purifier |
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GB2415627B (en) | 2007-09-26 |
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JP2006006923A (ja) | 2006-01-12 |
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