CN114234338A - 一种用于呼吸科的空气净化设备及其净化方法 - Google Patents
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Abstract
本发明涉及呼吸科的技术领域,具体为一种用于呼吸科的空气净化设备及其净化方法,包括滤尘室、进气风机、杀菌室、净化室、送气风机和出气装置,滤尘室的内部设置有滤尘网和HEPA滤网,杀菌室的内部设置有紫外线灯,净化室的内部设置有活性炭过滤板,出气装置与送气风机的出气端连通,出气装置包括出气箱、多个出气板和多个连接板,出气箱的顶部连通设置有出气管,出气管与送气风机的出气端连通,出气管的两侧设置有多个紊流管,多个出气板均匀的安装在送气口的内部,多个出气板的底部由左至右依次交错的向左侧或向右侧倾斜,多个连接板分别固定在多个出气板的空隙之间;其能够较好的满足呼吸科对空气净化的要求,提高呼吸科整体的空气质量。
Description
技术领域
本发明涉及呼吸科的技术领域,具体为一种用于呼吸科的空气净化设备及其净化方法。
背景技术
众所周知,空气净化设备是一种用于对空气中的灰尘颗粒和细菌等进行净化,防止受污染的空气对人的健康造成伤害的装置,对于呼吸科来说,由于呼吸道疾病的患者对空气的质量更为敏感,所以呼吸科的空气的净化处理显得更为重要,但是现在的呼吸科空气净化处理一般使用医用整体的空气净化处理设备,缺乏对空气的针对性净化处理。
中国专利公开号为CN208458108U的专利公开了一种呼吸科空气净化器,其大致描述为:包括净化器、显示屏和控制按钮,显示屏设置在净化器的前侧上端,且显示屏与净化器固定连接,过滤层的下端固定连接有气管,气管的下端设置有消毒器,且消毒器设置在净化器的右下角,净化器的内部左侧设置有竹炭包,且竹炭包设置在扇叶的后侧,消毒器的内部后侧设置有出气口,消毒器的前侧下端设置有斜板。设置过滤层采用二点五毫米过滤网制成,现有的呼吸科空气净化器使用时发现,其功能和结构较为简单,只能对局部的空气进行简单的净化处理,不能很好的满足呼吸科对空气净化的要求;
此外现有的空气过滤设备中其滤芯的灰尘清除均需要进行拆开更换或者进行清扫,因此大大缩短了维修和保养周期,且维修和保养过程操作不够便利。
发明内容
(一)解决的技术问题
针对现有技术的不足,本发明提供了一种用于呼吸科的空气净化设备及其净化方法,其能够较好的满足呼吸科对空气净化的要求,提高呼吸科整体的空气质量。
(二)技术方案
为实现上述目的,本发明提供如下技术方案:一种用于呼吸科的空气净化设备,包括滤尘室、进气风机、杀菌室、净化室、送气风机和出气装置,所述滤尘室的进气端连通设置有进气管,滤尘室的内部设置有滤尘网和HEPA滤网,在滤尘网网体的朝向HEPA滤网的侧部上设置有多个挤压弹簧,所述进气风机与滤尘室的出气端连通,所述杀菌室的进气端与进气风机的出气端连通,所述杀菌室的内部设置有紫外线灯,所述净化室的进气端与杀菌室的出气端连通,净化室的内部设置有多块活性炭过滤板,相邻的活性炭过滤板之间通过抵接弹簧连接,所述送气风机的进气端与净化室的出气端连通,所述出气装置与送气风机的出气端连通,所述出气装置包括出气箱、多个出气板和多个连接板,所述出气箱的底部设置有送气口,出气箱的顶部连通设置有出气管,所述出气管与送气风机的出气端连通,出气管的两侧设置有多个紊流管,多个紊流管均匀的与出气箱的两侧连通,多个出气板均匀的安装在送气口的内部,多个出气板左右依次相接触,多个出气板的底部由左至右依次交错的向左侧或向右侧倾斜,多个出气板的顶部之间均存在空隙,多个连接板分别固定在多个出气板的空隙之间,多个连接板均位于多个紊流管的下方,还包括负氧室,所述负氧室的进气端与所述净化室的出气端连通,负氧室的出气端与所述送气风机连通;
其中滤尘室、进气风机、杀菌室、净化室均安装于室外大气中,在滤尘室与进气风机之间的气道侧壁上设置有一第一电控开关阀和连通于大气的第一开口,在净化室与负氧室之间的气道侧壁上设置有一第二电控开关阀和连通于大气的第二开口,所述杀菌室的内部设置有多个缓冲板,多个缓冲板上均设置有多个缓冲孔,多个缓冲板的前侧和后侧分别电控铰接安装在杀菌室内部的前侧和后侧,多个缓冲板之间均存在空隙,多个缓冲板排列阻挡在气流流动方向上并与所述气流方向垂直,所述进气管的入口处为一锥形套筒结构,该锥形套筒电控可折叠设计,所述滤尘网通过保持有一定滑动阻尼的滑轨在滤尘室内可沿着气流流动方向前后移动,所述滑轨内设置有复位弹簧。
负氧室的内部安装有负氧离子发生器。
优选的,还包括加湿室,所述加湿室的进气端与所述负氧室的出气端连通,加湿室的出气端与所述送气风机连通,加湿室的侧壁上分别设置有加湿器和湿度测量装置。
优选的,还包括控温室和温度测量装置,所述控温室的进气端与所述加湿室的出气端连通,控温室的出气端与所述送气风机的进气端连通,控温室上设置有温控装置,所述温度测量装置安装在控温室的外侧。
优选的,还包括两个空气压差表,两个空气压差表分别安装在所述滤尘室的侧壁上,两个空气压差表分别位于所述滤尘网和HEPA滤网的后侧。
上述用于呼吸科的空气净化设备的净化方法包括以下步骤:
步骤一、将本装置的滤尘室、进气风机、杀菌室、净化室安装在露天环境中,并将出气装置安装在呼气科科室的送风口处;
步骤二、控制滤尘室的锥形入口结构伸展至最大面积并关闭第一和第二电控开关阀,从而关闭第一和第二开口,使用进气风机将外部空气吸入滤尘室,该过程中复位弹簧本体处于最大伸张长度,然后使用滤尘网和HEPA滤网对空气中的尘土和PM.颗粒进行过滤,然后,将过滤后的空气送人杀菌室,使用紫外线灯进行杀菌;
步骤三、杀菌后的空气进行净化室,使用活性炭过滤板进行吸附净化,然后,将净化后的空气送入负氧室,使用负氧离子发生器向空气中添加负氧离子;
步骤四、空气由负氧室进入加湿室,根据湿度测量装置测量的湿度值判断空气是否需要进行加湿,然后,空气进入控温室,根据温度测量装置测量的温度值,判断是否需要对空气进行冷却或加温;
步骤五、使用送气风机将净化后的空气排入出气装置中,通过紊流管和出气板将净化后的空气缓缓送入呼吸科科室内;
步骤六:在需要对滤尘室、净化室内的灰尘杂志进行清扫时,则首先保持第二电控开关阀关闭的同时开启第一电控开关阀,然后控制滤尘室的锥形入口结构伸展至中等面积,此时滤尘室内气流流速增加,滤尘网被朝向HEPA滤网方向推动,并依靠其上的挤压弹簧对HEPA滤网及自身上的灰尘进行抖动,然后控制进气风机周期性开启,从而使得抖落的灰尘从第一开口中进入大气;
步骤七:关闭第一电控开关阀并开启第二电控开关阀,并控制所有缓冲板铰接转动至与气流方向大致平行,从而使得杀菌室内气流通道通畅,然后控制滤尘室的锥形入口结构伸展至最小面积,然后控制进气风机周期性开启,从而使得各个活性炭过滤板之间相互挤压,使得其上的回车你掉落,从第二开口中进入大气;
步骤八:同时关闭第一和第二电控开关阀。
(三)有益效果
与现有技术相比,本发明提供了一种用于呼吸科的空气净化设备及其净化方法,具备以下有益效果;1、本发明中无需将气路管道和各个功能气室进行拆卸,配合第一和第二电控开关阀以及特殊设计的锥形入口和可电控改变入口进风流速的锥形入口和可铰接转动的缓冲板设计,使得无需拆卸进行灰尘清洗,大大延长了维修周期和维护难度。
2、该用于呼吸科的空气净化设备,通过滤尘网、HEPA滤网、紫外线灯、活性炭过滤板、负氧离子发生器、加湿器和温控装置的配合,可以对外部空气进行有效的净化和优化,然后,通过出气板使出气箱的底板呈内紧外宽的形状,并通过紊流管横向的气流作用,使出气箱排出的空气气流可以较为缓慢的进入到呼吸科科室中,从而在较好的满足呼吸科对空气净化要求的同时,避免送气速度过快对医生和患者造成不适。
附图说明
图1为本发明的结构示意图;
图2为本发明的杀菌室的俯视图;
图3为本发明的出气装置的俯视图;
图4为本发明的净化空气的流程框架图;
图中:1、滤尘室;2、进气风机;3、杀菌室;4、净化室;5、送气风机;6、进气管;7、滤尘网;8、HEPA滤网;9、紫外线灯;10、活性炭过滤板;11、出气箱;12、出气板;13、连接板;14、出气管;15、紊流管;16、缓冲板;17、负氧室;18、负氧离子发生器;19、加湿室;20、加湿器;21、湿度测量装置;22、控温室;23、温度测量装置;24、温控装置;25、空气压差表。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
请参阅图1-4,本发明的一种用于呼吸科的空气净化设备,包括滤尘室1、进气风机2、杀菌室3、净化室4、送气风机5和出气装置,所述滤尘室1的进气端连通设置有进气管6,滤尘室1的内部设置有滤尘网7和HEPA滤网8,在滤尘网7网体的朝向HEPA滤网8的侧部上设置有多个挤压弹簧,所述进气风机2与滤尘室1的出气端连通,所述杀菌室3的进气端与进气风机2的出气端连通,所述杀菌室3的内部设置有紫外线灯9,所述净化室4的进气端与杀菌室3的出气端连通,净化室4的内部设置有多块活性炭过滤板10,相邻的活性炭过滤板10之间通过抵接弹簧连接,所述送气风机5的进气端与净化室4的出气端连通,所述出气装置与送气风机5的出气端连通,所述出气装置包括出气箱11、多个出气板12和多个连接板13,所述出气箱11的底部设置有送气口,出气箱11的顶部连通设置有出气管14,所述出气管14与送气风机5的出气端连通,出气管14的两侧设置有多个紊流管15,多个紊流管15均匀的与出气箱11的两侧连通,多个出气板12均匀的安装在送气口的内部,多个出气板12左右依次相接触,多个出气板12的底部由左至右依次交错的向左侧或向右侧倾斜,多个出气板12的顶部之间均存在空隙,多个连接板13分别固定在多个出气板12的空隙之间,多个连接板13均位于多个紊流管15的下方,还包括负氧室17,所述负氧室17的进气端与所述净化室4的出气端连通,负氧室17的出气端与所述送气风机5连通;
其中滤尘室1、进气风机2、杀菌室3、净化室4均安装于室外大气中,在滤尘室1与进气风机2之间的气道侧壁上设置有一第一电控开关阀和连通于大气的第一开口,在净化室4与负氧室17之间的气道侧壁上设置有一第二电控开关阀和连通于大气的第二开口,所述杀菌室3的内部设置有多个缓冲板16,多个缓冲板16上均设置有多个缓冲孔,多个缓冲板16的前侧和后侧分别电控铰接安装在杀菌室3内部的前侧和后侧,多个缓冲板16之间均存在空隙,多个缓冲板16排列阻挡在气流流动方向上并与所述气流方向垂直,所述进气管6的入口处为一锥形套筒结构,该锥形套筒电控可折叠设计,所述滤尘网7通过保持有一定滑动阻尼的滑轨在滤尘室1内可沿着气流流动方向前后移动,所述滑轨内设置有复位弹簧;
通过滤尘网7、HEPA滤网8、紫外线灯9、活性炭过滤板10、负氧离子发生器18、加湿器20和温控装置24的配合,可以对外部空气进行有效的净化和优化,然后,通过出气板12使出气箱11的底板呈内紧外宽的形状,并通过紊流管15横向的气流作用,使出气箱11排出的空气气流可以较为缓慢的进入到呼吸科科室中,从而在较好的满足呼吸科对空气净化要求的同时,避免送气速度过快对医生和患者造成不适。
还需要说明的是,所述杀菌室3的内部设置有多个缓冲板16,多个缓冲板16上均设置有多个缓冲孔,多个缓冲板16的前侧和后侧分别安装在杀菌室3内部的前侧和后侧,多个缓冲板16之间均存在空隙,通过多个缓冲板16可以降低杀菌室3内的空气流速,从而提高紫外线灯9对空气中病菌的杀菌时间;还包括两个空气压差表25,两个空气压差表25分别安装在所述滤尘室1的侧壁上,两个空气压差表25分别位于所述滤尘网7和HEPA滤网8的后侧,通过两个空气压差表25可以测量滤尘网7和HEPA滤网8内外的空气压差,从而判断滤尘网7和HEPA滤网8是否需要清洗或者更换。
上述用于呼吸科的空气净化设备的净化方法包括以下步骤:
步骤一、将本装置的滤尘室1、进气风机2、杀菌室3、净化室4安装在露天环境中,并将出气装置安装在呼气科科室的送风口处;
步骤二、控制滤尘室1的锥形入口结构伸展至最大面积并关闭第一和第二电控开关阀,从而关闭第一和第二开口,使用进气风机2将外部空气吸入滤尘室1,该过程中复位弹簧本体处于最大伸张长度,然后使用滤尘网7和HEPA滤网8对空气中的尘土和PM2.5颗粒进行过滤,然后,将过滤后的空气送人杀菌室3,使用紫外线灯9进行杀菌;
步骤三、杀菌后的空气进行净化室4,使用活性炭过滤板10进行吸附净化,然后,将净化后的空气送入负氧室17,使用负氧离子发生器18向空气中添加负氧离子;
步骤四、空气由负氧室17进入加湿室19,根据湿度测量装置21测量的湿度值判断空气是否需要进行加湿,然后,空气进入控温室22,根据温度测量装置23测量的温度值,判断是否需要对空气进行冷却或加温;
步骤五、使用送气风机5将净化后的空气排入出气装置中,通过紊流管15和出气板12将净化后的空气缓缓送入呼吸科科室内;
步骤六:在需要对滤尘室1、净化室4内的灰尘杂志进行清扫时,则首先保持第二电控开关阀关闭的同时开启第一电控开关阀,然后控制滤尘室1的锥形入口结构伸展至中等面积,此时滤尘室1内气流流速增加,滤尘网7被朝向HEPA滤网8方向推动,并依靠其上的挤压弹簧对HEPA滤网8及自身上的灰尘进行抖动,然后控制进气风机2周期性开启,从而使得抖落的灰尘从第一开口中进入大气;
步骤七:关闭第一电控开关阀并开启第二电控开关阀,并控制所有缓冲板16铰接转动至与气流方向大致平行,从而使得杀菌室3内气流通道通畅,然后控制滤尘室1的锥形入口结构伸展至最小面积,然后控制进气风机2周期性开启,从而使得各个活性炭过滤板10之间相互挤压,使得其上的回车你掉落,从第二开口中进入大气;
步骤八:同时关闭第一和第二电控开关阀。
因此本发明中无需将气路管道和各个功能气室进行拆卸,配合第一和第二电控开关阀以及特殊设计的锥形入口和可电控改变入口进风流速的锥形入口和可铰接转动的缓冲板设计,使得无需拆卸进行灰尘清洗,大大延长了维修周期和维护难度。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (6)
1.一种用于呼吸科的空气净化设备,包括滤尘室(1)、进气风机(2)、杀菌室(3)、净化室(4)、送气风机(5)和出气装置,其特征在于:所述滤尘室(1)的进气端连通设置有进气管(6),滤尘室(1)的内部设置有滤尘网(7)和HEPA滤网(8),在滤尘网(7)网体的朝向HEPA滤网(8)的侧部上设置有多个挤压弹簧,所述进气风机(2)与滤尘室(1)的出气端连通,所述杀菌室(3)的进气端与进气风机(2)的出气端连通,所述杀菌室(3)的内部设置有紫外线灯(9),所述净化室(4)的进气端与杀菌室(3)的出气端连通,净化室(4)的内部设置有多块活性炭过滤板(10),相邻的活性炭过滤板(10)之间通过抵接弹簧连接,所述送气风机(5)的进气端与净化室(4)的出气端连通,所述出气装置与送气风机(5)的出气端连通,所述出气装置包括出气箱(11)、多个出气板(12)和多个连接板(13),所述出气箱(11)的底部设置有送气口,出气箱(11)的顶部连通设置有出气管(14),所述出气管(14)与送气风机(5)的出气端连通,出气管(14)的两侧设置有多个紊流管(15),多个紊流管(15)均匀的与出气箱(11)的两侧连通,多个出气板(12)均匀的安装在送气口的内部,多个出气板(12)左右依次相接触,多个出气板(12)的底部由左至右依次交错的向左侧或向右侧倾斜,多个出气板(12)的顶部之间均存在空隙,多个连接板(13)分别固定在多个出气板(12)的空隙之间,多个连接板(13)均位于多个紊流管(15)的下方,还包括负氧室(17),所述负氧室(17)的进气端与所述净化室(4)的出气端连通,负氧室(17)的出气端与所述送气风机(5)连通;
其中滤尘室(1)、进气风机(2)、杀菌室(3)、净化室(4)均安装于室外大气中,在滤尘室(1)与进气风机(2)之间的气道侧壁上设置有一第一电控开关阀和连通于大气的第一开口,在净化室(4)与负氧室(17)之间的气道侧壁上设置有一第二电控开关阀和连通于大气的第二开口,所述杀菌室(3)的内部设置有多个缓冲板(16),多个缓冲板(16)上均设置有多个缓冲孔,多个缓冲板(16)的前侧和后侧分别电控铰接安装在杀菌室(3)内部的前侧和后侧,多个缓冲板(16)之间均存在空隙,多个缓冲板(16)排列阻挡在气流流动方向上并与所述气流方向垂直,所述进气管(6)的入口处为一锥形套筒结构,该锥形套筒电控可折叠设计,所述滤尘网(7)通过保持有一定滑动阻尼的滑轨在滤尘室(1)内可沿着气流流动方向前后移动,所述滑轨内设置有复位弹簧。
2.根据权利要求1所述的用于呼吸科的空气净化设备,其特征在于:负氧室(17)的内部安装有负氧离子发生器(18)。
3.根据权利要求2所述的用于呼吸科的空气净化设备,其特征在于:还包括加湿室(19),所述加湿室(19)的进气端与所述负氧室(17)的出气端连通,加湿室(19)的出气端与所述送气风机(5)连通,加湿室(19)的侧壁上分别设置有加湿器(20)和湿度测量装置(21)。
4.根据权利要求3所述的用于呼吸科的空气净化设备,其特征在于:还包括控温室(22)和温度测量装置(23),所述控温室(22)的进气端与所述加湿室(19)的出气端连通,控温室(22)的出气端与所述送气风机(5)的进气端连通,控温室(22)上设置有温控装置(24),所述温度测量装置(23)安装在控温室(22)的外侧。
5.根据权利要求1所述的用于呼吸科的空气净化设备,其特征在于:还包括两个空气压差表(25),两个空气压差表(25)分别安装在所述滤尘室(1)的侧壁上,两个空气压差表(25)分别位于所述滤尘网(7)和HEPA滤网(8)的后侧。
6.一种如权利要求1-5任意一项所述的用于呼吸科的空气净化设备的净化方法,其特征在于:包括以下步骤:
步骤一、将本装置的滤尘室(1)、进气风机(2)、杀菌室(3)、净化室(4)安装在露天环境中,并将出气装置安装在呼气科科室的送风口处;
步骤二、控制滤尘室(1)的锥形入口结构伸展至最大面积并关闭第一和第二电控开关阀,从而关闭第一和第二开口,使用进气风机(2)将外部空气吸入滤尘室(1),该过程中复位弹簧本体处于最大伸张长度,然后使用滤尘网(7)和HEPA滤网(8)对空气中的尘土和PM2.5颗粒进行过滤,然后,将过滤后的空气送人杀菌室(3),使用紫外线灯(9)进行杀菌;
步骤三、杀菌后的空气进行净化室(4),使用活性炭过滤板(10)进行吸附净化,然后,将净化后的空气送入负氧室(17),使用负氧离子发生器(18)向空气中添加负氧离子;
步骤四、空气由负氧室(17)进入加湿室(19),根据湿度测量装置(21)测量的湿度值判断空气是否需要进行加湿,然后,空气进入控温室(22),根据温度测量装置(23)测量的温度值,判断是否需要对空气进行冷却或加温;
步骤五、使用送气风机(5)将净化后的空气排入出气装置中,通过紊流管(15)和出气板(12)将净化后的空气缓缓送入呼吸科科室内;
步骤六:在需要对滤尘室(1)、净化室(4)内的灰尘杂志进行清扫时,则首先保持第二电控开关阀关闭的同时开启第一电控开关阀,然后控制滤尘室(1)的锥形入口结构伸展至中等面积,此时滤尘室(1)内气流流速增加,滤尘网(7)被朝向HEPA滤网(8)方向推动,并依靠其上的挤压弹簧对HEPA滤网(8)及自身上的灰尘进行抖动,然后控制进气风机(2)周期性开启,从而使得抖落的灰尘从第一开口中进入大气;
步骤七:关闭第一电控开关阀并开启第二电控开关阀,并控制所有缓冲板(16)铰接转动至与气流方向大致平行,从而使得杀菌室(3)内气流通道通畅,然后控制滤尘室(1)的锥形入口结构伸展至最小面积,然后控制进气风机(2)周期性开启,从而使得各个活性炭过滤板(10)之间相互挤压,使得其上的回车你掉落,从第二开口中进入大气;
步骤八:同时关闭第一和第二电控开关阀。
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